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The Jaguar E-Type, or the Jaguar XK-E for the North American market, is a British sports car, which was manufactured by Jaguar Cars Ltd between 1961 and 1975. Its combination of beauty, high performance, and competitive pricing established the marque as an icon of the motoring. At a time when most cars had drum brakes, live rear axles, and mediocre performance, the E-Type sprang on the scene with 150 mph and a sub-7 second 0–60 time, monocoque construction, disc brakes, rack and pinion steering, independent front and rear suspension, and unrivalled looks. The E-Type was based on Jaguar's D-Type racing car which had won the 24 Hours of Le Mans three consecutive years (1955–1957) and, as such, it employed the racing design of a body tub attached to a tubular framework, with the engine bolted directly to the framework.
On its release Enzo Ferrari called it "the most beautiful car ever made". In 2004, Sports Car International magazine placed the E-Type at number one on their list of Top Sports Cars of the 1960s. In March 2008, the Jaguar E-Type ranked first in The Daily Telegraph online list of the world's "100 most beautiful cars" of all time. In popular culture the car features in the Austin Powers film series which parodies the Swinging London fashion scene of the 1960s.
OVERVIEW
The E-Type was initially designed and shown to the public as a rear-wheel drive grand tourer in two-seater coupé form (FHC or Fixed Head Coupé) and as a two-seater convertible (OTS or Open Two Seater). A "2+2" four-seater version of the coupé, with a lengthened wheelbase, was released several years later.
Later model updates of the E-Type were officially designated "Series 2" and "Series 3", and over time the earlier cars have come to be referred to as "Series 1." As with other largely hand made cars of the time, changes were incremental and ongoing, which has led to confusion over exactly what is a Series 1 car. This is of more than academic interest, as Series 1 E-Types—and particularly Series 1 OTS (convertible) examples—have values far in excess of Series 2 and 3 models.
Some transitional examples exist. For example, while Jaguar itself never recognised a "Series 1½" or "Series 1.5," over time, this sub-category has been recognised by the Jaguar Owners Club of Great Britain and other leading authorities. The "pure" 4.2 litre Series 1 was made in model years 1965-1967 (earlier Series 1 models had a smaller, 3.8 litre engine with less torque). The 4.2 litre Series 1 has serial or VIN numbers 1E10001 - 1E15888 (in the case of the left hand drive OTS), and 1E30001 - 1E34249 (in the case of the left hand drive hardtop, or FHC). The Series 1.5 left hand drive OTS has serial numbers 1E15889 - 1E18368, with the hardtop version of the Series 1.5 having VIN numbers 1E34250 - 1E35815.[10] Series 1.5 cars were made in model year 1968.
The Series 1 cars, which are by far the most valuable, essentially fall into two categories: Those made between 1961 and 1964, which had 3.8 litre engines and non-synchromesh transmissions, and those made between 1965-1967, which increased engine size and torque by around 10%, added a fully synchronised transmission, and also provided new reclining seats, an alternator in place of the prior generator, an electrical system switched to negative earth, and other modern amenities, all while keeping the same classic Series 1 styling. The 4.2 litre Series 1 E-Types also replaced the brake servo of the 3.8 litre with a more reliable unit. "The 4.2 became the most desirable version of the famous E-Type due to their increased power and usability while retaining the same outward appearance as the earlier cars."
As of the end of 2014, the most expensive regular production Jaguar E-Types sold at auction included a 4.2 litre Series 1 OTS, with matching numbers, original paint and interior, under 80,000 original miles, and a history of being in the original buyer's family for 45 years (this car sold for $467,000 in 2013) and a 1961 "flat floor" Series 1, selling for $528,000 in 2014. Special run racing lightweights go for far more still, with a Series 1 lightweight - one of just twelve built - selling for more than £5 million (+/- $7.5 million USD) in early 2015.
Being a British made car of the 1960s, there are some rather rare sub-types of Series 1 E-Types, particularly at the beginning and end of the Series 1 production. For example, the first 500 Series 1 cars had flat floors and external bonnet latches. At the close of the Series 1 production run, there were a small number of cars produced that are identical in every respect to other Series 1 units (including triple SU carbs, button actuated starter, toggle switches, etc.), except that the headlight covers were removed for better illumination. It is not known exactly how many of these Series 1 cars (sometimes referred to as for convenience sake as "Series 1.25," but per Jaguar, Series 1) were produced, but given that 1,508 Series 1 OTS cars were produced worldwide for 1967, combined with the fact that these examples were made in just the last several months of Series 1 production, means that these, like the flat floor examples that began the Series 1 production run, are the lowest volume Series 1 variant, save of course for the special lightweights.
Worldwide, including both left and right hand drive examples, a total of 7,828 3.8 litre Series 1 roadsters were built, with 6,749 of the later 4.2 litre Series 1 roadsters having been manufactured.
While the 1968 Series 1.5 cars maintained the essential design of the Series 1 models, emission regulations caused US models to lose the Series 1 triple SU carburetors; these were replaced in the Series 1.5 by less powerful twin Zenith-Stromberg units, dropping horsepower from 265 to 246 and torque from 283 to 263.
Of the "Series 1" cars, Jaguar manufactured some limited-edition variants, inspired by motor racing:
The "'Lightweight' E-Type" which was intended as a sort of follow-up to the D-Type. Jaguar planned to produce 18 units but ultimately only a dozen were reportedly built. Of those, two have been converted to low drag form and two others are known to have been wrecked and deemed to be beyond repair, although one has now been rebuilt. These are exceedingly rare and sought after by collectors. *The "Low Drag Coupé" was a one-off technical exercise which was ultimately sold to a Jaguar racing driver. It is presently believed to be part of the private collection of the current Viscount Cowdray. In 2014, Jaguar announced its intention to build the remaining six lightweights, at a cost of approximately £1 million each.
Safety and emissions regulations in the North American market forced the Series 2 and 3 E-Types to lose "the original's purity, with a larger grille, wider wheel arches and bigger bumpers being added that distorted the (Series 1's) looks."
The New York City Museum of Modern Art recognised the significance of the E-Type's design in 1996 by adding a blue roadster to its permanent design collection, one of only six automobiles to receive the distinction. The MoMA XKE is a Series 1 roadster.
CONCEPT VERSIONS
E1A (1957)
After the company's success at the Le Mans 24 hr through the 1950s, Jaguar's defunct racing department was given the brief to use D-Type style construction to build a road-going sports car, replacing the XK150.
The first prototype (E1A) featured a monocoque design, Jaguar's fully independent rear suspension and the well proven "XK" engine. The car was used solely for factory testing and was never formally released to the public. The car was eventually scrapped by the factory.
E2A (1960)
Jaguar's second E-Type concept was E2A which, unlike the E1A, was constructed from a steel chassis with an aluminium body. This car was completed as a racing car as it was thought by Jaguar at the time it would provide a better testing ground. E2A used a 3-litre version of the XK engine with a Lucas fuel injection system.
After retiring from the Le Mans 24 hr the car was shipped to America to be used for racing by Jaguar privateer Briggs Cunningham. In 1961, the car returned to Jaguar in England to be used as a test vehicle. Ownership of E2A passed to Roger Woodley (Jaguar's customer competition car manager) who took possession on the basis the car not be used for racing. E2A had been scheduled to be scrapped. Roger's wife owned E2A until 2008 when it was offered for sale at Bonham's Quail Auction, where it sold for US$4,957,000.
PRODUCTION VERSIONS
SERIES 1 (1961–68)
The Series 1 was introduced, initially for export only, in March 1961. The domestic market launch came four months later in July 1961. The cars at this time used the triple SU carburetted 3.8 litre six-cylinder Jaguar XK6 engine from the XK150S. Earlier built cars utilised external bonnet latches which required a tool to open and had a flat floor design. These cars are rare and more valuable. After that, the floors were dished to provide more leg room and the twin bonnet latches moved to inside the car. The 3.8-litre engine was increased to 4.2 litres in October 1964.
The 4.2-litre engine produced the same power as the 3.8-litre (265 bhp; 198 kW) and same top speed (150 mph;241 km/h), but increased torque from 240 to 283 lb·ft (325 to 384 N·m). Acceleration remained pretty much the same and 0 to 60 mph (0 to 97 km/h) times were around 6.4 seconds for both engines, but maximum power was now reached at 5,400rpm instead of 5,500rpm on the 3.8-litre. That all meant better throttle response for drivers that did not want to shift down gears. The 4.2 litre resulted in increased torque of approximately 10% across the power band. Its new block was also longer and was completely redesigned to make room for 5mm larger bores, and Jaguar also redesigned the crankshaft to use newer bearings. Other engine upgrades included a new alternator/generator and an electric cooling fan for the radiator.
Autocar road tested a UK spec E-Type 4.2 fixed head coupe in May 1965. The maximum speed was 246 km/h, the 0–60 mph (0–97 km/h) time was 7.6 seconds and the 402 m from a standing start took 15.1 seconds. They summarised it as "In its 4.2 guise the E-type is a fast car (the fastest we have ever tested) and offers just about the easiest way to travel quickly by road.".
Motor magazine road tested a UK spec E-Type 4.2 fixed head coupe in Oct 1964. The maximum speed was 241 km/h, the 0-60 mph time was 7 seconds and the 1⁄4 mile time was 14.9 seconds.They summarised it as "The new 4.2 supersedes the early 3.8 as the fastest car Motor has tested. The absurd ease which 100 mph can be exceeded in a 1⁄4 mile never failed to astonish. 3,000 miles of testing confirms that this is still one of the worlds outstanding cars".
All E-Types featured independent coil spring rear suspension with torsion bar front ends, and four wheel disc brakes, in-board at the rear, all were power-assisted. Jaguar was one of the first vehicle manufacturers to equip cars with disc brakes as standard from the XK150 in 1958. The Series 1 (except for late 1967 models) can be recognised by glass-covered headlights (up to 1967), small "mouth" opening at the front, signal lights and tail-lights above bumpers and exhaust tips under the number plate in the rear.
3.8-litre cars have leather-upholstered bucket seats, an aluminium-trimmed centre instrument panel and console (changed to vinyl and leather in 1963), and a Moss four-speed gearbox that lacks synchromesh for first gear ("Moss box"). 4.2-litre cars have more comfortable seats, improved brakes and electrical systems, and an all-synchromesh four-speed gearbox. 4.2-litre cars also have a badge on the boot proclaiming "Jaguar 4.2 Litre E-Type" (3.8 cars have a simple "Jaguar" badge). Optional extras included chrome spoked wheels and a detachable hard top for the OTS. When leaving the factory the car was originally fitted with Dunlop 6.40 × 15 inch RS5 tyres on 15 × 5K wire wheels (with the rear fitting 15 × 5K½ wheels supplied with 6.50 X15 Dunlop Racing R5 tyres in mind of competition). Later Series One cars were fitted with Dunlop 185 - 15 SP41 or 185 VR 15 Pirelli Cinturato as radial ply tyres.
A 2+2 version of the coupé was added in 1966. The 2+2 offered the option of an automatic transmission. The body is 9 in (229 mm) longer and the roof angles are different. The roadster and the non 2+2 FHC (Fixed Head Coupe) remained as two-seaters.
Less widely known, right at the end of Series 1 production, but prior to the transitional "Series 1½" referred to below, a small number of Series 1 cars were produced, with open headlights. These series one cars had their headlights modified by removing the covers and altering the scoops they sit in, but these Series 1 headlights differ in several respects from those later used in the Series 1½ (or 1.5), the main being they are shorter at 143mm from the Series 1½ at 160mm . Production dates on these machines vary but in right hand drive form production has been verified as late as March 1968. Exact production numbers of these later Series 1 open headlight cars are not precisely known. They are not "rare" in the sense of the build of the twelve lightweights, but they are certainly uncommon; they were not produced until January 1967, and their production ended that same summer, with the Series 1.5 production beginning in August 1967 as model year 1968 models. These calendar year/model year Series 1 E-Type 's are identical to other 4.2 litre Series 1 examples in every respect except for the open headlights; all other component areas, including the exterior, the interior, and the engine compartment are the same, with the same three SU carburetors, polished aluminum cam covers, center dash toggle switches, etc.
Following the Series 1 there was a transitional series of cars built in 1967–68 as model year 1968 cars, unofficially called "Series 1½." Due to American pressure the new features were not just open headlights, but also different switches (black plastic rocker switches as opposed to the Series 1 toggle switches), de-tuning (using two Zenith-Stromberg carburetters instead of the original three SUs) for US models, ribbed cam covers painted black except for the top brushed aluminum ribbing, hood frames on the OTS that have two bows, and other changes. Series 1½ cars also have twin cooling fans and adjustable seat backs. The biggest change between 1961-1967 Series 1 E-Types and the 1968 Series 1.5 was the reduction in the number of carburetors from 3 to just 2, resulting in a loss in horsepower from 265 to 246 and a loss in torque from 283 to 263. Series 2 features were gradually introduced into the Series 1, creating the unofficial Series 1½ cars, but always with the Series 1 body style. A United States federal safety law affecting 1968 model year cars sold in the US was the reason for the lack of headlight covers and change in dash switch design in the "Series 1.5" of 1968. An often overlooked change, one that is often "modified back" to the older style, is the wheel knock-off "nut." US safety law for 1968 models also forbid the winged-spinner knockoff, and any 1968 model year sold in the US (or earlier German delivery cars) should have a hexagonal knockoff nut, to be hammered on and off with the assistance of a special "socket" included with the car from the factory. This hexagonal nut carried on into the later Series 2 and 3. The engine configuration of the US Series 1.5s was the same as is found in the Series 2, and per the JCNA Judges' Guide, "only MY '68 E-types are true Series 1.5s."
An open 3.8-litre car, actually the first such production car to be completed, was tested by the British magazine The Motor in 1961 and had a top speed of 240.0 km/h and could accelerate from 0 to 60 mph (0 to 97 km/h) in 7.1 seconds. A fuel consumption of 21.3 miles per imperial gallon (13.3 L/100 km; 17.7 mpg-US) was recorded. The test car cost £2,097 including taxes.
The cars submitted for road test by the popular motoring journals of the time (1961) such as The Motor, The Autocar and Autosport magazines were specially prepared by the Jaguar works to give better-than-standard performance figures. This work entailed engine balancing and subtle work such as gas-flowing the cylinder heads and may even have involved fitting larger diameter inlet valves.
Both of the well-known 1961 road test cars: the E-type Coupe Reg. No. 9600 HP and E-type Convertible Reg. No. 77 RW, were fitted with Dunlop Racing Tyres on test, which had a larger rolling diameter and lower drag co-efficient. This goes some way to explaining the 240 km/h maximum speeds that were obtained under ideal test conditions. The maximum safe rev limit for standard 6-cylinder 3.8-litre E-type engines is 5,500 rpm. The later 4.2-Litre units had a red marking on the rev counter from just 5,000 rpm. Both test cars must have reached or exceeded 6,000 rpm in top gear when on road test in 1961.
Production numbers from Robson:
15,490 3.8s
17,320 4.2s
10,930 2+2s
SERIES 2 (1968–71)
The Series 2 introduced a number of design changes, largely due to U.S. design legislation. The most distinctive exterior feature is the absence of the glass headlight covers, which affected several other imported cars, like the Citroën DS, as well. Unlike other cars, this retrograde step was applied worldwide for the E-Type, not just to Americans living under the authority of the National Highway Traffic and Safety Administration.
Other hallmarks of Series 2 cars are a wrap-around rear bumper, re-positioned and larger front indicators and tail lights below the bumpers, an enlarged "mouth" which aided cooling but detracted for the Series I design purity, twin electric fans, plastic rocker switches in place of the Series I toggle switches, and, of course most importantly, a material downgrading in performance resulting from a switch from the three SU carburetors used in Series I models to a mere two "smogged" Stromberg carbs, reducing horsepower from 265 to 246 and reducing torque from 283 to 263.
A combination steering lock and ignition key was fitted to the steering column, which replaced the dashboard mounted ignition switch and charismatic push button starter. A new steering column was fitted with a collapsible section in the event of an accident.
New seats were fitted which allowed the fitment of head restraints, as required by U.S. law beginning in 1969. The interior and dashboard were also redesigned; rocker switches that met US health and safety regulations were substituted for toggle switches. The dashboard switches also lost their symmetrical layout.
The engine is easily identified visually by the change from smooth polished cam covers to a more industrial "ribbed" appearance. It was de-tuned in the US with twin Strombergs and larger valve clearances, but in the UK retained triple SUs and the much tighter valve clearances. (Series 1½ cars also had ribbed cam covers). This detuned engine produced 245 hp, a drop of 20 hp.
Air conditioning and power steering were available as factory options.
Production according to Robson is 13,490 of all types.
SERIES 3 (1971–75)
The E-Type Series 3 was introduced in 1971, with a new 5.3 L twelve cylinder Jaguar V12 engine, uprated brakes and standard power steering. Optionally an automatic transmission, wire wheels and air conditioning were available. The brand new V12 engine was originally developed for the 24 Hours of Le Mans. It was equipped with four Zenith carburettors. The final engine was claimed produced 203 kW (272 hp), massive torque and an acceleration of 0-60 mph in less than 7 seconds, but this bhp figure was reduced in later production. The short wheelbase FHC body style was discontinued and the V12 was available only as a convertible and 2+2 coupé.
Performance was very competitive with contemporaries.
The newly used longer wheelbase now offered significantly more room in all directions. The Series 3 is easily identifiable by the large cross-slatted front grille, flared wheel arches, wider tyres, four exhaust tips and a badge on the rear that proclaims it to be a V12.
Cars for the US market were fitted with large projecting rubber bumper over-riders (in 1973 these were on front, in 1974 both front and rear) to meet local 8 km/h impact regulations, but those on European models were considerably smaller. US models also have side indicator repeats on the front wings. There were also a very limited number of six-cylinder Series 3 E-Types built. These were featured in the initial sales procedure but the lack of demand stopped their production. When leaving the factory the V12 Open Two Seater and V12 2 ± 2 originally fitted Dunlop E70VR − 15 inch tyres on 15 × 6K wire or solid wheels.
The Jaguar factory claimed that fitting a set of Jaguar XJ12 saloon steel-braced radial-ply tyres to a V12 E-Type raised the top speed by as much as 8 mph. The production car was fitted with textile-braced radial ply tyres. This fact was reported by the editor of The Motor magazine in the long-term test of his E-type edition dated 4 August 1973, who ran a V12 fixed head for a while.
Robson lists production at 15,290.[
LIMITED EDITIONS
Two limited production E-Type variants were made as test beds, the low drag coupe and lightweight E-Type, both of which were raced:
LOW DRAG COUPE (1962)
Shortly after the introduction of the E-Type, Jaguar management wanted to investigate the possibility of building a car more in the spirit of the D-Type racer from which elements of the E-Type's styling and design were derived. One car was built to test the concept designed as a coupé. Unlike the steel production E-Types, the LDC used lightweight aluminium. Malcolm Sayer retained the original tub with lighter outer panels riveted and glued to it. The front steel sub frame remained intact, the windshield was given a more pronounced slope, and the rear hatch was welded shut. Rear brake cooling ducts appeared next to the rear windows, and the interior trim was discarded, with only insulation around the transmission tunnel. With the exception of the windscreen, all cockpit glass was perspex. A tuned version of Jaguar's 3.8-litre engine with a wide-angle cylinder head design tested on the D-Type racers was used.
The only test bed car was completed in summer of 1962 but was sold a year later to Jaguar racing driver Dick Protheroe. Since then it has passed through the hands of several collectors on both sides of the Atlantic and is now believed to reside in the private collection of the current Viscount Cowdray.
Peter Lindner, the Jaguar distributor in Germany, had his Lightweight modified by the factory to include the Sayer low drag roof and rear panels as part of an effort to win the GT class at LeMans. Lindner's car was more than a match for the Ferrari 250 GTO but mechanical problems forced it out of the race. Lindner was later killed in a racing accident that demolished his car, which has recently been restored.
Jaguar waited too long before committing to a racing program in earnest and what could have been a world champion in 1962 was not competitive by 1965.
LiIGHTWEIGHT E-TYPE (1963–64, 2014–PRESENT)
Twelve cars plus two spare bodies were made by Jaguar.
In some ways, this was an evolution of the low drag coupé. It made extensive use of aluminium alloy metal, in the body panels and other components. However, with at least one exception, it remained an open-top car in the spirit of the D-Type to which this car is a more direct successor than the production E-Type which is more of a GT than a sports car. The cars used an aluminium block tuned version of the production 3.8-litre Jaguar engine with 300 bhp (220 kW) output rather than the 265 bhp (198 kW) produced by the "ordinary" version. Factory-built lightweights were homologated by Jaguar with three 45DCO3 Weber carburettors in addition to a Lucas mechanical fuel injection system. Early cars were fitted with a close-ratio version of the four speed E-type gearbox, with some later cars being fitted with a ZF five speed gearbox.
The cars were entered in various races but, unlike the C-Type and D-Type racing cars, they did not win at Le Mans or Sebring but were reasonably successful in private hands and in smaller races.
One lightweight was modified into a low drag coupé (the Lindner/Nöcker car), by Malcolm Sayer.
Another lightweight was modified into a unique low drag design (the Lumsden/Sargent car), by Dr Samir Klat of Imperial College. Along with the factory LDC, this lightweight is now believed to reside in the private collection of the current Viscount Cowdray.
Many were fitted with more powerful engines as developments occurred.
On 14 May 2014, Jaguar's Heritage Business announced it would be building the six 'remaining' lightweights. The original run of lightweights was meant to be 18 vehicles; however only 12 were built. The new cars, using the unused chassis codes, will be hand built to exactly the same specification as the originals. Availability was prioritised for established collectors of Jaguars, with a focus on those who have an interest in historic race cars.
MOTORSPORT
Bob Jane won the 1963 Australian GT Championship at the wheel of a "lightweight" E-Type.
The Jaguar E-Type was very successful in SCCA Production sports car racing with Group44 and Bob Tullius taking the B-Production championship with a Series-3 V12 racer in 1975. A few years later, Gran-Turismo Jaguar from Cleveland Ohio campaigned a 4.2-litre six-cylinder FHC racer in SCCA production series, and in 1980 won the National Championship in the SCCA C-Production Class, defeating a fully funded factory Nissan Z-car team with Paul Newman.
WIKIPEDIA
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The Jaguar E-Type, or the Jaguar XK-E for the North American market, is a British sports car, which was manufactured by Jaguar Cars Ltd between 1961 and 1975. Its combination of beauty, high performance, and competitive pricing established the marque as an icon of the motoring. At a time when most cars had drum brakes, live rear axles, and mediocre performance, the E-Type sprang on the scene with 150 mph and a sub-7 second 0–60 time, monocoque construction, disc brakes, rack and pinion steering, independent front and rear suspension, and unrivalled looks. The E-Type was based on Jaguar's D-Type racing car which had won the 24 Hours of Le Mans three consecutive years (1955–1957) and, as such, it employed the racing design of a body tub attached to a tubular framework, with the engine bolted directly to the framework.
On its release Enzo Ferrari called it "the most beautiful car ever made". In 2004, Sports Car International magazine placed the E-Type at number one on their list of Top Sports Cars of the 1960s. In March 2008, the Jaguar E-Type ranked first in The Daily Telegraph online list of the world's "100 most beautiful cars" of all time. In popular culture the car features in the Austin Powers film series which parodies the Swinging London fashion scene of the 1960s.
OVERVIEW
The E-Type was initially designed and shown to the public as a rear-wheel drive grand tourer in two-seater coupé form (FHC or Fixed Head Coupé) and as a two-seater convertible (OTS or Open Two Seater). A "2+2" four-seater version of the coupé, with a lengthened wheelbase, was released several years later.
Later model updates of the E-Type were officially designated "Series 2" and "Series 3", and over time the earlier cars have come to be referred to as "Series 1." As with other largely hand made cars of the time, changes were incremental and ongoing, which has led to confusion over exactly what is a Series 1 car. This is of more than academic interest, as Series 1 E-Types—and particularly Series 1 OTS (convertible) examples—have values far in excess of Series 2 and 3 models.
Some transitional examples exist. For example, while Jaguar itself never recognised a "Series 1½" or "Series 1.5," over time, this sub-category has been recognised by the Jaguar Owners Club of Great Britain and other leading authorities. The "pure" 4.2 litre Series 1 was made in model years 1965-1967 (earlier Series 1 models had a smaller, 3.8 litre engine with less torque). The 4.2 litre Series 1 has serial or VIN numbers 1E10001 - 1E15888 (in the case of the left hand drive OTS), and 1E30001 - 1E34249 (in the case of the left hand drive hardtop, or FHC). The Series 1.5 left hand drive OTS has serial numbers 1E15889 - 1E18368, with the hardtop version of the Series 1.5 having VIN numbers 1E34250 - 1E35815.[10] Series 1.5 cars were made in model year 1968.
The Series 1 cars, which are by far the most valuable, essentially fall into two categories: Those made between 1961 and 1964, which had 3.8 litre engines and non-synchromesh transmissions, and those made between 1965-1967, which increased engine size and torque by around 10%, added a fully synchronised transmission, and also provided new reclining seats, an alternator in place of the prior generator, an electrical system switched to negative earth, and other modern amenities, all while keeping the same classic Series 1 styling. The 4.2 litre Series 1 E-Types also replaced the brake servo of the 3.8 litre with a more reliable unit. "The 4.2 became the most desirable version of the famous E-Type due to their increased power and usability while retaining the same outward appearance as the earlier cars."
As of the end of 2014, the most expensive regular production Jaguar E-Types sold at auction included a 4.2 litre Series 1 OTS, with matching numbers, original paint and interior, under 80,000 original miles, and a history of being in the original buyer's family for 45 years (this car sold for $467,000 in 2013) and a 1961 "flat floor" Series 1, selling for $528,000 in 2014. Special run racing lightweights go for far more still, with a Series 1 lightweight - one of just twelve built - selling for more than £5 million (+/- $7.5 million USD) in early 2015.
Being a British made car of the 1960s, there are some rather rare sub-types of Series 1 E-Types, particularly at the beginning and end of the Series 1 production. For example, the first 500 Series 1 cars had flat floors and external bonnet latches. At the close of the Series 1 production run, there were a small number of cars produced that are identical in every respect to other Series 1 units (including triple SU carbs, button actuated starter, toggle switches, etc.), except that the headlight covers were removed for better illumination. It is not known exactly how many of these Series 1 cars (sometimes referred to as for convenience sake as "Series 1.25," but per Jaguar, Series 1) were produced, but given that 1,508 Series 1 OTS cars were produced worldwide for 1967, combined with the fact that these examples were made in just the last several months of Series 1 production, means that these, like the flat floor examples that began the Series 1 production run, are the lowest volume Series 1 variant, save of course for the special lightweights.
Worldwide, including both left and right hand drive examples, a total of 7,828 3.8 litre Series 1 roadsters were built, with 6,749 of the later 4.2 litre Series 1 roadsters having been manufactured.
While the 1968 Series 1.5 cars maintained the essential design of the Series 1 models, emission regulations caused US models to lose the Series 1 triple SU carburetors; these were replaced in the Series 1.5 by less powerful twin Zenith-Stromberg units, dropping horsepower from 265 to 246 and torque from 283 to 263.
Of the "Series 1" cars, Jaguar manufactured some limited-edition variants, inspired by motor racing:
The "'Lightweight' E-Type" which was intended as a sort of follow-up to the D-Type. Jaguar planned to produce 18 units but ultimately only a dozen were reportedly built. Of those, two have been converted to low drag form and two others are known to have been wrecked and deemed to be beyond repair, although one has now been rebuilt. These are exceedingly rare and sought after by collectors. *The "Low Drag Coupé" was a one-off technical exercise which was ultimately sold to a Jaguar racing driver. It is presently believed to be part of the private collection of the current Viscount Cowdray. In 2014, Jaguar announced its intention to build the remaining six lightweights, at a cost of approximately £1 million each.
Safety and emissions regulations in the North American market forced the Series 2 and 3 E-Types to lose "the original's purity, with a larger grille, wider wheel arches and bigger bumpers being added that distorted the (Series 1's) looks."
The New York City Museum of Modern Art recognised the significance of the E-Type's design in 1996 by adding a blue roadster to its permanent design collection, one of only six automobiles to receive the distinction. The MoMA XKE is a Series 1 roadster.
CONCEPT VERSIONS
E1A (1957)
After the company's success at the Le Mans 24 hr through the 1950s, Jaguar's defunct racing department was given the brief to use D-Type style construction to build a road-going sports car, replacing the XK150.
The first prototype (E1A) featured a monocoque design, Jaguar's fully independent rear suspension and the well proven "XK" engine. The car was used solely for factory testing and was never formally released to the public. The car was eventually scrapped by the factory.
E2A (1960)
Jaguar's second E-Type concept was E2A which, unlike the E1A, was constructed from a steel chassis with an aluminium body. This car was completed as a racing car as it was thought by Jaguar at the time it would provide a better testing ground. E2A used a 3-litre version of the XK engine with a Lucas fuel injection system.
After retiring from the Le Mans 24 hr the car was shipped to America to be used for racing by Jaguar privateer Briggs Cunningham. In 1961, the car returned to Jaguar in England to be used as a test vehicle. Ownership of E2A passed to Roger Woodley (Jaguar's customer competition car manager) who took possession on the basis the car not be used for racing. E2A had been scheduled to be scrapped. Roger's wife owned E2A until 2008 when it was offered for sale at Bonham's Quail Auction, where it sold for US$4,957,000.
PRODUCTION VERSIONS
SERIES 1 (1961–68)
The Series 1 was introduced, initially for export only, in March 1961. The domestic market launch came four months later in July 1961. The cars at this time used the triple SU carburetted 3.8 litre six-cylinder Jaguar XK6 engine from the XK150S. Earlier built cars utilised external bonnet latches which required a tool to open and had a flat floor design. These cars are rare and more valuable. After that, the floors were dished to provide more leg room and the twin bonnet latches moved to inside the car. The 3.8-litre engine was increased to 4.2 litres in October 1964.
The 4.2-litre engine produced the same power as the 3.8-litre (265 bhp; 198 kW) and same top speed (150 mph;241 km/h), but increased torque from 240 to 283 lb·ft (325 to 384 N·m). Acceleration remained pretty much the same and 0 to 60 mph (0 to 97 km/h) times were around 6.4 seconds for both engines, but maximum power was now reached at 5,400rpm instead of 5,500rpm on the 3.8-litre. That all meant better throttle response for drivers that did not want to shift down gears. The 4.2 litre resulted in increased torque of approximately 10% across the power band. Its new block was also longer and was completely redesigned to make room for 5mm larger bores, and Jaguar also redesigned the crankshaft to use newer bearings. Other engine upgrades included a new alternator/generator and an electric cooling fan for the radiator.
Autocar road tested a UK spec E-Type 4.2 fixed head coupe in May 1965. The maximum speed was 246 km/h, the 0–60 mph (0–97 km/h) time was 7.6 seconds and the 402 m from a standing start took 15.1 seconds. They summarised it as "In its 4.2 guise the E-type is a fast car (the fastest we have ever tested) and offers just about the easiest way to travel quickly by road.".
Motor magazine road tested a UK spec E-Type 4.2 fixed head coupe in Oct 1964. The maximum speed was 241 km/h, the 0-60 mph time was 7 seconds and the 1⁄4 mile time was 14.9 seconds.They summarised it as "The new 4.2 supersedes the early 3.8 as the fastest car Motor has tested. The absurd ease which 100 mph can be exceeded in a 1⁄4 mile never failed to astonish. 3,000 miles of testing confirms that this is still one of the worlds outstanding cars".
All E-Types featured independent coil spring rear suspension with torsion bar front ends, and four wheel disc brakes, in-board at the rear, all were power-assisted. Jaguar was one of the first vehicle manufacturers to equip cars with disc brakes as standard from the XK150 in 1958. The Series 1 (except for late 1967 models) can be recognised by glass-covered headlights (up to 1967), small "mouth" opening at the front, signal lights and tail-lights above bumpers and exhaust tips under the number plate in the rear.
3.8-litre cars have leather-upholstered bucket seats, an aluminium-trimmed centre instrument panel and console (changed to vinyl and leather in 1963), and a Moss four-speed gearbox that lacks synchromesh for first gear ("Moss box"). 4.2-litre cars have more comfortable seats, improved brakes and electrical systems, and an all-synchromesh four-speed gearbox. 4.2-litre cars also have a badge on the boot proclaiming "Jaguar 4.2 Litre E-Type" (3.8 cars have a simple "Jaguar" badge). Optional extras included chrome spoked wheels and a detachable hard top for the OTS. When leaving the factory the car was originally fitted with Dunlop 6.40 × 15 inch RS5 tyres on 15 × 5K wire wheels (with the rear fitting 15 × 5K½ wheels supplied with 6.50 X15 Dunlop Racing R5 tyres in mind of competition). Later Series One cars were fitted with Dunlop 185 - 15 SP41 or 185 VR 15 Pirelli Cinturato as radial ply tyres.
A 2+2 version of the coupé was added in 1966. The 2+2 offered the option of an automatic transmission. The body is 9 in (229 mm) longer and the roof angles are different. The roadster and the non 2+2 FHC (Fixed Head Coupe) remained as two-seaters.
Less widely known, right at the end of Series 1 production, but prior to the transitional "Series 1½" referred to below, a small number of Series 1 cars were produced, with open headlights. These series one cars had their headlights modified by removing the covers and altering the scoops they sit in, but these Series 1 headlights differ in several respects from those later used in the Series 1½ (or 1.5), the main being they are shorter at 143mm from the Series 1½ at 160mm . Production dates on these machines vary but in right hand drive form production has been verified as late as March 1968. Exact production numbers of these later Series 1 open headlight cars are not precisely known. They are not "rare" in the sense of the build of the twelve lightweights, but they are certainly uncommon; they were not produced until January 1967, and their production ended that same summer, with the Series 1.5 production beginning in August 1967 as model year 1968 models. These calendar year/model year Series 1 E-Type 's are identical to other 4.2 litre Series 1 examples in every respect except for the open headlights; all other component areas, including the exterior, the interior, and the engine compartment are the same, with the same three SU carburetors, polished aluminum cam covers, center dash toggle switches, etc.
Following the Series 1 there was a transitional series of cars built in 1967–68 as model year 1968 cars, unofficially called "Series 1½." Due to American pressure the new features were not just open headlights, but also different switches (black plastic rocker switches as opposed to the Series 1 toggle switches), de-tuning (using two Zenith-Stromberg carburetters instead of the original three SUs) for US models, ribbed cam covers painted black except for the top brushed aluminum ribbing, hood frames on the OTS that have two bows, and other changes. Series 1½ cars also have twin cooling fans and adjustable seat backs. The biggest change between 1961-1967 Series 1 E-Types and the 1968 Series 1.5 was the reduction in the number of carburetors from 3 to just 2, resulting in a loss in horsepower from 265 to 246 and a loss in torque from 283 to 263. Series 2 features were gradually introduced into the Series 1, creating the unofficial Series 1½ cars, but always with the Series 1 body style. A United States federal safety law affecting 1968 model year cars sold in the US was the reason for the lack of headlight covers and change in dash switch design in the "Series 1.5" of 1968. An often overlooked change, one that is often "modified back" to the older style, is the wheel knock-off "nut." US safety law for 1968 models also forbid the winged-spinner knockoff, and any 1968 model year sold in the US (or earlier German delivery cars) should have a hexagonal knockoff nut, to be hammered on and off with the assistance of a special "socket" included with the car from the factory. This hexagonal nut carried on into the later Series 2 and 3. The engine configuration of the US Series 1.5s was the same as is found in the Series 2, and per the JCNA Judges' Guide, "only MY '68 E-types are true Series 1.5s."
An open 3.8-litre car, actually the first such production car to be completed, was tested by the British magazine The Motor in 1961 and had a top speed of 240.0 km/h and could accelerate from 0 to 60 mph (0 to 97 km/h) in 7.1 seconds. A fuel consumption of 21.3 miles per imperial gallon (13.3 L/100 km; 17.7 mpg-US) was recorded. The test car cost £2,097 including taxes.
The cars submitted for road test by the popular motoring journals of the time (1961) such as The Motor, The Autocar and Autosport magazines were specially prepared by the Jaguar works to give better-than-standard performance figures. This work entailed engine balancing and subtle work such as gas-flowing the cylinder heads and may even have involved fitting larger diameter inlet valves.
Both of the well-known 1961 road test cars: the E-type Coupe Reg. No. 9600 HP and E-type Convertible Reg. No. 77 RW, were fitted with Dunlop Racing Tyres on test, which had a larger rolling diameter and lower drag co-efficient. This goes some way to explaining the 240 km/h maximum speeds that were obtained under ideal test conditions. The maximum safe rev limit for standard 6-cylinder 3.8-litre E-type engines is 5,500 rpm. The later 4.2-Litre units had a red marking on the rev counter from just 5,000 rpm. Both test cars must have reached or exceeded 6,000 rpm in top gear when on road test in 1961.
Production numbers from Robson:
15,490 3.8s
17,320 4.2s
10,930 2+2s
SERIES 2 (1968–71)
The Series 2 introduced a number of design changes, largely due to U.S. design legislation. The most distinctive exterior feature is the absence of the glass headlight covers, which affected several other imported cars, like the Citroën DS, as well. Unlike other cars, this retrograde step was applied worldwide for the E-Type, not just to Americans living under the authority of the National Highway Traffic and Safety Administration.
Other hallmarks of Series 2 cars are a wrap-around rear bumper, re-positioned and larger front indicators and tail lights below the bumpers, an enlarged "mouth" which aided cooling but detracted for the Series I design purity, twin electric fans, plastic rocker switches in place of the Series I toggle switches, and, of course most importantly, a material downgrading in performance resulting from a switch from the three SU carburetors used in Series I models to a mere two "smogged" Stromberg carbs, reducing horsepower from 265 to 246 and reducing torque from 283 to 263.
A combination steering lock and ignition key was fitted to the steering column, which replaced the dashboard mounted ignition switch and charismatic push button starter. A new steering column was fitted with a collapsible section in the event of an accident.
New seats were fitted which allowed the fitment of head restraints, as required by U.S. law beginning in 1969. The interior and dashboard were also redesigned; rocker switches that met US health and safety regulations were substituted for toggle switches. The dashboard switches also lost their symmetrical layout.
The engine is easily identified visually by the change from smooth polished cam covers to a more industrial "ribbed" appearance. It was de-tuned in the US with twin Strombergs and larger valve clearances, but in the UK retained triple SUs and the much tighter valve clearances. (Series 1½ cars also had ribbed cam covers). This detuned engine produced 245 hp, a drop of 20 hp.
Air conditioning and power steering were available as factory options.
Production according to Robson is 13,490 of all types.
SERIES 3 (1971–75)
The E-Type Series 3 was introduced in 1971, with a new 5.3 L twelve cylinder Jaguar V12 engine, uprated brakes and standard power steering. Optionally an automatic transmission, wire wheels and air conditioning were available. The brand new V12 engine was originally developed for the 24 Hours of Le Mans. It was equipped with four Zenith carburettors. The final engine was claimed produced 203 kW (272 hp), massive torque and an acceleration of 0-60 mph in less than 7 seconds, but this bhp figure was reduced in later production. The short wheelbase FHC body style was discontinued and the V12 was available only as a convertible and 2+2 coupé.
Performance was very competitive with contemporaries.
The newly used longer wheelbase now offered significantly more room in all directions. The Series 3 is easily identifiable by the large cross-slatted front grille, flared wheel arches, wider tyres, four exhaust tips and a badge on the rear that proclaims it to be a V12.
Cars for the US market were fitted with large projecting rubber bumper over-riders (in 1973 these were on front, in 1974 both front and rear) to meet local 8 km/h impact regulations, but those on European models were considerably smaller. US models also have side indicator repeats on the front wings. There were also a very limited number of six-cylinder Series 3 E-Types built. These were featured in the initial sales procedure but the lack of demand stopped their production. When leaving the factory the V12 Open Two Seater and V12 2 ± 2 originally fitted Dunlop E70VR − 15 inch tyres on 15 × 6K wire or solid wheels.
The Jaguar factory claimed that fitting a set of Jaguar XJ12 saloon steel-braced radial-ply tyres to a V12 E-Type raised the top speed by as much as 8 mph. The production car was fitted with textile-braced radial ply tyres. This fact was reported by the editor of The Motor magazine in the long-term test of his E-type edition dated 4 August 1973, who ran a V12 fixed head for a while.
Robson lists production at 15,290.[
LIMITED EDITIONS
Two limited production E-Type variants were made as test beds, the low drag coupe and lightweight E-Type, both of which were raced:
LOW DRAG COUPE (1962)
Shortly after the introduction of the E-Type, Jaguar management wanted to investigate the possibility of building a car more in the spirit of the D-Type racer from which elements of the E-Type's styling and design were derived. One car was built to test the concept designed as a coupé. Unlike the steel production E-Types, the LDC used lightweight aluminium. Malcolm Sayer retained the original tub with lighter outer panels riveted and glued to it. The front steel sub frame remained intact, the windshield was given a more pronounced slope, and the rear hatch was welded shut. Rear brake cooling ducts appeared next to the rear windows, and the interior trim was discarded, with only insulation around the transmission tunnel. With the exception of the windscreen, all cockpit glass was perspex. A tuned version of Jaguar's 3.8-litre engine with a wide-angle cylinder head design tested on the D-Type racers was used.
The only test bed car was completed in summer of 1962 but was sold a year later to Jaguar racing driver Dick Protheroe. Since then it has passed through the hands of several collectors on both sides of the Atlantic and is now believed to reside in the private collection of the current Viscount Cowdray.
Peter Lindner, the Jaguar distributor in Germany, had his Lightweight modified by the factory to include the Sayer low drag roof and rear panels as part of an effort to win the GT class at LeMans. Lindner's car was more than a match for the Ferrari 250 GTO but mechanical problems forced it out of the race. Lindner was later killed in a racing accident that demolished his car, which has recently been restored.
Jaguar waited too long before committing to a racing program in earnest and what could have been a world champion in 1962 was not competitive by 1965.
LiIGHTWEIGHT E-TYPE (1963–64, 2014–PRESENT)
Twelve cars plus two spare bodies were made by Jaguar.
In some ways, this was an evolution of the low drag coupé. It made extensive use of aluminium alloy metal, in the body panels and other components. However, with at least one exception, it remained an open-top car in the spirit of the D-Type to which this car is a more direct successor than the production E-Type which is more of a GT than a sports car. The cars used an aluminium block tuned version of the production 3.8-litre Jaguar engine with 300 bhp (220 kW) output rather than the 265 bhp (198 kW) produced by the "ordinary" version. Factory-built lightweights were homologated by Jaguar with three 45DCO3 Weber carburettors in addition to a Lucas mechanical fuel injection system. Early cars were fitted with a close-ratio version of the four speed E-type gearbox, with some later cars being fitted with a ZF five speed gearbox.
The cars were entered in various races but, unlike the C-Type and D-Type racing cars, they did not win at Le Mans or Sebring but were reasonably successful in private hands and in smaller races.
One lightweight was modified into a low drag coupé (the Lindner/Nöcker car), by Malcolm Sayer.
Another lightweight was modified into a unique low drag design (the Lumsden/Sargent car), by Dr Samir Klat of Imperial College. Along with the factory LDC, this lightweight is now believed to reside in the private collection of the current Viscount Cowdray.
Many were fitted with more powerful engines as developments occurred.
On 14 May 2014, Jaguar's Heritage Business announced it would be building the six 'remaining' lightweights. The original run of lightweights was meant to be 18 vehicles; however only 12 were built. The new cars, using the unused chassis codes, will be hand built to exactly the same specification as the originals. Availability was prioritised for established collectors of Jaguars, with a focus on those who have an interest in historic race cars.
MOTORSPORT
Bob Jane won the 1963 Australian GT Championship at the wheel of a "lightweight" E-Type.
The Jaguar E-Type was very successful in SCCA Production sports car racing with Group44 and Bob Tullius taking the B-Production championship with a Series-3 V12 racer in 1975. A few years later, Gran-Turismo Jaguar from Cleveland Ohio campaigned a 4.2-litre six-cylinder FHC racer in SCCA production series, and in 1980 won the National Championship in the SCCA C-Production Class, defeating a fully funded factory Nissan Z-car team with Paul Newman.
WIKIPEDIA
Karni Exports is one of the most shining names in the dynamic world of fashion & Home textiles. Established in year 2000 & registered with D&B D-U-N-S No.(Dun & Bradstreet ),Karni Exports aspires for complete customer satisfaction owing to the high quality products at competitive prices with an on-schedule delivery. We firmly believes that the satisfaction of the valued customers is the focal point of its business.
Karni Exports is a name that stands on the pinnacle of the readymade garment Woven & Knitted garment fashion industry & Home Textiles With a commitment to excellence and delivering high fashion garments & Made-ups products.The company has established a strong market goodwill globally. A professionally manged company, Karni Exports is a leading manufacturer and exporter of fine quality Ladies fashion garments like Skirts, Woven Tops ,Dresses, Blouses, Tshirts, Shirts, Camisoles, Trousers, Pants, Kids wears , & Home Textiles products like bedsheets, quilts, curtains, cushions ,Rugs etc.
We take pride in introducing ourselves as one of India's leading manufacturers and exporters of Ladies Fashion Garments & Home Textiles, Made-ups products. Our elite range of products is in tune with the international trends focusing on intricate details, contemporary designs and scheduled deliveries. We are committed to offering the best service, at the best price!
We have earned accolades from our customers not only in domestic market, but also international market.In tune with the demands of time and challenges, we have developed cutting edge competitiveness.
Our Set up :
Our Infrastructural set up is our biggest strength. We possess a state-of-the-art production unit backed by hi-tech machines ,and latest technology. We continually upgrade our technology to fight competition. Our team of designers are involved in bringing forth garments with innovative designs and exquisite patterns.
Our set up also include:-
1. Pre-Production Sampling Room
2. Paper Pattern Making, Grading using Electra System
3. Assembly Line Production
4. Finishing Room with Steam Press, Stain Removing Machines and washing facilities.
Infrastructure : To keep abreast with the latest in fashion world, we possess a well-equipped production, backed by Juki & Pegasus. We have a team of designers, which is engaged in designing dresses that are a fusion of modern style and traditional look. Our apparels are given an excellent finishing touch by using latest technology. We also have inhouse facility of Knitted garments as well as woven garments.
Product Customization : We posses in-house facilities to work on our clients' desired design or style of garments. Taking care of all manufacturing methods tailored to clients requirement is the key of our motto service for satisfaction.
Principle market of the Company : U.S.A., Canada, UK, Spain, Israel ,
Europe, japan, middle east etc.
In House Setup : 100 Juki Machines with all finishing, dyeing, printing facility.
Clients : We have an excellent reputation in the verticals of this industry across the world, specially USA and Europe. Our impeccable credentials have given us a firm stand to maintain the relations with our clients by providing them customer satisfaction.
We already have our ONLINE Global Virtual Showroom on our web
& another link to see more products
www.flickr.com/photos/karniexports/show/
in that we have our all products range listed as a Digital Catelouge.
If you are interetsed in our products then we can start with simple sample order,we can send you samples .
Pls contact for complete details of all above products, color, size and wholesale price.
Thanxs and keep in touch
Regards.
KARNI EXPORTS
G1-155,EPIP,Garment Zone
Sitapura Industrial Area ,Tonk road,
Jaipur, ( Rajasthan) India.
INDIA-302022
Contact person :
Mr. Pradeep Nahata : +91-98281-99329
Telefax: +91 141 2770896
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e-Mail : pradeepnahata@yahoo.com
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Prod. 1981-1999/2001
Sn. 2475515
Top of the line 1981.
X-700 brochure:
"The X-700 is Minolta's fully-programmed, micro-computerized Automatic Exposure 35mm SLR. It's a simple-to-operate Automatic Exposure camera, selecting both aperture and shutter speed in Programmed Automatic Exposure mode (P mode). So all you have to do is focus-and-shoot. The X-700 also offers Aperture-Priority Automatic Exposure control (A mode) and a full-metered manual exposure control (M mode), in addition to many other features that make photography more fun and enjoyable than ever before."
wikipedia:
T"he Minolta X-700 is a 35 mm single-lens reflex film camera introduced by Minolta in 1981. It was the top model of their final manual-focus SLR series before the introduction of the auto-focus Minolta Maxxum 7000.
The X-700 was awarded the European "Camera of the Year" award in 1981, and its competitive pricing resulted in its becoming the most successful Minolta camera since the SRT line."
kenrockwell.com:
"A testament to its lasting and good design, it was introduced in the early 1980s and was in continuous production until the beginning of 2001. I had a very new one with a serial number above 3,000,000, and I also bought an X-570 (it's brother) back in 1982."
From x-700 owners manual:
Elecronically governed 35mm single-reflex AE camera.
Exposure-control modes:
Fully programmed (P), aperture-priority automatic (A), and metered manual (M).
Exposure control and functions:
Low-voltage, low current computer circuit incorporating quartz crystal for sequential control to 1/30,000-sec. accuracy, large-scale ICs, samarium-cobalt impulse-release magnets, and linear-resistance inputs) varies both aperture and shutter speed steplessly according to special "faster-speed" program in P mode, or varies shutter speed steplessly according to aperture set in A mode, to yield proper exposure for the film speed and exposure adjustment set; auto-exposure range: EV 1 to EV 18 (e.g., 1 sec. at f/1.4 to 1/1000 at f/16) at ISO 100/21° with f/1.4 lens; AE-lock device holds meter reading for exposure at that value regardless of subject-brightness changes.
Shutter:
Horizontal-traverse focal-plane type; electronically controlled stepless speeds 1/1000 to 4 sec. set automatically with endlessly rotatable selector dial locked at "P" or "A" setting or fixed speeds 1 to 1/1000 sec. or "B" (bulb) set manually at detented dial indications; electromagnetic shutter release locks when voltage too low for proper operation.
Metering:
TTL center-weighted averaging type, by silicon photocell mounted at rear of pentaprism for available light, measured full aperture for normal finder display, then at taking aperture for programmed/automatic-exposure setting/determination or stop-down display; by another SPC mounted with optic in side of mirror compartment for TTL off-film Direct Autoflash Metering at taking aperture during exposure to control burst duration of PX-series flash units.
Film-speed range:
ISO 25/150 to 1600/330 set by ASA dial that locks at 1/3-EV increments.
Exposure-adjustment control:
Up to ±2 EV continuous adjustment of P, A, or M exposure by dial that locks at zero position and each 1/2-EV setting.
Mirror:
Triple-coated oversize instant-return slide-up type.
Viewfinder:
Eye-Level fixed pentaprism type showing 95% of 24x36mm film-frame area; magnification: 02X with 50mm standard lens focused at infinity; power: -1D, adjustable with accessory Snap-On eyepiece lenses; Fresnel-field focusing screen having artificially regular-patterned matte field plus central split-image horizontally oriented focusing aid surrounded by microprism band, interchangeable with Type P1, P2, Pd, M, G, L, S, or H screens at authorized Minolta service stations; visible around frame: mode indication (P, A, or M), shutter-speed scale (1, 2, 4, 8, 15, 30, 60, 125, 250, 500, and 1000) with LED setting indication, triangular over-/under-range LED indicators blinking at 4Hz, flash-ready signal (LED next to "60" blinking at 2Hz), FDC signal ("60" LED blinking at 8Hz for 1 sec. after correct flash exposure), mis-set lens warning (mode indication blinking at 4Hz in P mode, battery check (by glowing of any LED when operating button touched or pressed slightly), f-number set with MD or MC lenses, and exposure-adjustment engaged indication (LED blinking at 4Hz); display and metering activated by normal finger contact or slight pressing of operating button and continue for 15 sec., except go out after shutter release.
Flash Sync and Control:
Hot shoe and PC terminal for X sync; camera-control contact on hot shoe for flash ready signaling and automatic setting of shutter at 1/60 sec. (except when mode/shutter-speed selector set for sync at "B") with PX and X flash units; other electronic units synchronize at 1/60 sec. and slower manual speeds or "B" setting; Class MF, M, and FP flashbulbs, at 1/15 sec. or slower settings; second contact on hot shoe for burst control by Direct Autoflash Metering with PX units.
Power:
Two 1.5v alkaline-manganese (LR44: Eveready A-76 or equiv.), two 1.55v silver-oxide (SR-44: Eveready S-76, EPX-76, or equiv.), or one 3v lithium (CR-1/3N) cell(s).
While capturing vessels berthed in Telford Quay at Aberdeen Harbour this afternoon Thursday 10th January 2019, this Colin Lawson Transport DAF XF truck arrived, a quick word with the driver asking for permission to take some photos of his truck , he gave me permission and these captures are the result.
Colin Lawson Transport .
History
Since buying his first lorry back in 1997, Colin Lawson has built his company up to the size it is today along with help from loyal office staff, also with employing the most experienced of drivers.
The company has grown enormously over the past years, growing alongside key customers supporting each other in good and bad times.
Colin Lawson Transport aim is to maintain a level of service second to none providing each customer with the same personal contact, building on long standing relationships.
One of the leading haulage companies in the North East of Scotland and have a reputation of providing a first class service built on our strong customer relationships.
Specialists within the oil and gas sector, working alongside general haulage fleet and heavy haulage fleet.
One of Aberdeen’s largest and most experienced haulage companies, operating a fleet of over 60 vehicles specialising within the oil and gas sector, complimenting both general haulage and heavy haulage fleet.
Also being one of the largest heavy haulage fleets in Scotland we have a multitude of variable trailers to meet individual customer needs. Driver training is paramount within our company and we undertake regular internal driving assessments along with ADR training to vastly improve our drivers skills.
Fleet of vehicles are one of the most modern and road friendly in our area purchasing from all major manufactures, our trailer fleet are predominantly all purchased from Dennison Trailers.
Business model has always been built on forging long standing relationships with customers, and treat every customer with the same working values, and strive to maintain this at every level.
CF Jennings is a leading provider of local, national and European transport services, based in Aberdeen. Since 1971 this family-run business has worked with companies big and small, a distinctive fleet of vehicles carry out deliveries across Scotland, the rest of the UK and mainland Europe.
Operations team can arrange collections and deliveries of any shape or form, providing services such as general haulage, bulk loads, parcel collection and delivery, abnormal loads, transportation of hazardous goods, and a lot more.
CF Jennings prides itself on making quick decisions, being honest and providing a personal, quality service at very competitive prices.
Long term partnerships exist because of these qualities and newer relationships exist thanks to word-of-mouth, continuous quality feedback, and down-to-earth approach to business.
Being a smaller, family-run company has its advantages – CF Jennings are able to provide a quicker, more personal and straightforward service that often cannot be matched by others, leaving customers dissatisfied. That’s where CF Jennings comes in .
Working around-the-clock, often at very short notice, to get the job done.
DAF XF 105
Low operating costs, best driver satisfaction and high reliability: the key development criteria behind DAF’s trucks for the long haul.
The XF105 is the best proposition on the market today. Voted International Truck of the Year 2007 by an international panel of specialist journalists. It has the most spacious cab in its class, offers top comfort to the driver and high revenues per kilometre to the operator. It’s a top performer.
Designed for long distance haulage applications, the cab sets a new standard for driver comfort. With a choice of Space Cab and Super Space Cab – both with generous interior dimensions – the XF105 offers more living, working and storage space than any other truck in its class. The result: drivers stay fit and fresh longer.
Powered for profit
The 12.9-litre PACCAR MX engine delivers excellent performance: from 410 hp up to 510 hp and high torque of between 2,000 and 2,500 Nm, with a maximum torque available between 1,000 and 1,410 rpm.
Also, with DAF SCR Technology it complies with either Euro 4 or Euro 5 exhaust gas emission standards. It is economical too, incorporating several technical advances that reduce fuel consumption. The XF105 also uses many low-maintenance components, which extends service intervals to further reduce operating costs.
High performance driveline
The driveline is carefully balanced to optimise performance under all operating conditions, and to make the most of the engine’s low fuel consumption. There is a choice of either a 16-speed manual or the latest AS-Tronic automated transmission to deliver power to the acclaimed DAF hypoid rear axle. There is also a hub-reduction axle for more demanding applications.
Choice of axle configurations
To ensure that the XF105 is ideally suited to each application it includes a choice of tractors and rigids with two-, three-, or four-axles.
XF105 has numerous styling and aerodynamic refinements. They include a restyled lower grille, which extends to the bumper and is more pronounced to channel more air and enhance performance. The lower grille also features an aluminium strip to signify compliance with the Euro 4/5 exhaust emission standards, while the upper grille is redesigned with cleaner lines. There is also a styled bumper, in which optional cat’s-eye combi-lights can now be integrated. The clear headlamps with virtually unbreakable Lexan protection can now also come as Xenon.
Wider field of vision
The four large, electrically adjustable and heated mirrors offer a much larger field of view for increased safety. The stylish aerodynamically designed mirrors are also optionally available in body colour.
Super Space Cab roof
The entirely restyled Super Space Cab roof is both pronounced and stylish. There is an integrated aerodynamic sun visor. While the optional integrated skylights, with twin 70W halogen spotlights, improve visibility and add an extra touch of style. It all adds up to a unique, powerful presence, both tough and inviting at the same time.
The PACCAR MX engine, developed and manufactured by DAF, combines excellent high performance with economical fuel consumption. It is available in 410, 460 and 510 hp versions with high torque of 2,000, 2,300 and 2,500 Nm respectively. Importantly, maximum torque is available between 1,000 and 1,410 rpm.
Environmental labeling glue at competitive price
michael@nenghui.net
skype: mike.zhanglucky
Tel; Wechat; whatsApp: +86 15820949678
Hispania Tours, can't recommend them enough! Excellent customer service, competitive prices, great planning and support for our three days 'self guided' tour!
We did approx 500 miles in all over the three days riding!
As part of the Pinta Malasaña 2020 Art Project numerous examples of Urban Art have been incorporated into the decoration of the Market.
Located in the Plaza de los Mostenses, it is one of the city’s oldest markets. Built in 1946, much has changed since then. Today, its hallmark is undoubtedly its formidable mixture of cultures, gastronomy and food from the four compass points. East and west, north and south are represented in this central market, behind the Gran Vía, where we can find everything from Iranian caviar to a full range of the most exotic tropical fruit from South America.
The history of the Los Mostenses Market (which takes its name from the square in which it is held referring to St. Norbert’s Convent of the Premonstratensian or Montenses monks, who lived there until its demolition in 1810), is parallel to that of the Gran Vía. Behind it, inside a rationalist-style building, there is a market that has grown naturally.
Los Mostenses Market is a living organism combining the essential – a wide range of fresh products at competitive prices – with the unexpected: plenty of Korean products, a Chinese darner or an Iranian caviar dispensary. The market boasts more than one hundred stalls, spread out over three floors or located at street level, which are home to a wide spectrum of the food business – with a large representation of Latin American and oriental gastronomy – and it offers various services: hairdresser’s, reprography, florist’s...
A K Wig Designs is purely an online shop supplying custom styled wigs, hairpieces,fashion wigs and accessories to the Entertainment industry and the general public at competitive prices. Here you will find a range of various styles and shades to suit almost any taste. It all started back in 1978 when I took an avid interest in the world of Hairstyling, immediately I became captivated in the high glamour of the showbiz world and the big backcombed bouffant of the various screen sirens like Elizabeth Taylor, Joan Collins, marylin Monroe and many other icons of past and present.
I knew that I was destined to have a tail comb and lots of hairdo’s to create and immediately pursued a career in theatre film and television.Having worked and gained over 25+ years in the art of hair/wig dressing and makeup on some of London’s biggest west end shows like, the phantom of the opera, the king and I, and Jesus Christ superstar and TV shows like Coronation street.I then felt that I wanted to go a step further and pursued the world of drag artists and the transgendered world where I knew I could let my wig/hairdressing skills and imagination run wild, I visited many bars and clubs around the UK offering my hair/wig dressing services and experience, and to my amazement I was confronted by drag artists saying “Thank God there are people like you in the world, what would we do without huge hair?” By this time I knew I had something that all drag artists longed for and that was Big Backcombed tresses, so in 1999 I felt the need to reach a much larger target by reaching the medical sector and helping those sadly suffering from hair loss.Since
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Quoting from Wikipedia: Jaguar E-Type:
• • • • •
The Jaguar E-Type (UK) or XK-E (US) is a British automobile manufactured by Jaguar between 1961 and 1974. Its combination of good looks, high performance, and competitive pricing established the marque as an icon of 1960s motoring. A great success for Jaguar, over seventy thousand E-Types were sold during its lifespan.
In March 2008, the Jaguar E-Type ranked first in Daily Telegraph list of the "100 most beautiful cars" of all time.[2] In 2004, Sports Car International magazine placed the E-Type at number one on their list of Top Sports Cars of the 1960s.
Contents
•• 4.2 Lightweight E-Type (1963-1964)
Overview
The E-Type was initially designed and shown to the public as a grand tourer in two-seater coupé form (FHC or Fixed Head Coupé) and as convertible (OTS or Open Two Seater). The 2+2 version with a lengthened wheelbase was released several years later.
On its release Enzo Ferrari called it "The most beautiful car ever made".
The model was made in three distinct versions which are now generally referred to as "Series 1", "Series 2" and "Series 3". A transitional series between Series 1 and Series 2 is known unofficially as "Series 1½".
In addition, several limited-edition variants were produced:
• The "'Lightweight' E-Type" which was apparently intended as a sort of follow-up to the D-Type. Jaguar planned to produce 18 units but ultimately only a dozen were reportedly built. Of those, one is known to have been destroyed and two others have been converted to coupé form. These are exceedingly rare and sought after by collectors.
• The "Low Drag Coupé" was a one-off technical exercise which was ultimately sold to a Jaguar racing driver. It is presently believed to be part of the private collection of the current Viscount Cowdray.
Concept versions
E1A (1957)
After their success at LeMans 24 hr through the 1950s Jaguars defunct racing department were given the brief to use D-Type style construction to build a road going sports car, replacing the XK150.
It is suspected that the first prototype (E1A) was given the code based on: (E): The proposed production name E-Type (1): First Prototype (A): Aluminium construction (Production models used steel bodies)
The car featured a monocoque design, Jaguar's fully independent rear suspension and the well proved "XK" engine.
The car was used solely for factory testings and was never formally released to the public. The car was eventually scrapped by the factory
E2A (1960)
Jaguar's second E-Type concept was E2A which unlike E1A was constructed from a steel chassis and used a aluminium body. This car was completed as a race car as it was thought by Jaguar at the time it would provide a better testing ground.
E2A used a 3 litre version of the XK engine with a Lucas fuel injection system.
After retiring from the LeMans 24 hr the car was shipped to America to be used for racing by Jaguar privateer Briggs Cunningham.
In 1961 the car returned to Jaguar in England to be used as a testing mule.
Ownership of E2A passed to Roger Woodley (Jaguars customer competition car manager) who took possession on the basis the car not be used for racing. E2A had been scheduled to be scrapped.
Roger's wife Penny Griffiths owned E2A until 2008 when it was offered for sale at Bonham's Quail Auction. Sale price was US$4.5 million
Production versions
Series 1 (1961-1968)
Series I
• Production
2-door coupe
2-door convertible
96.0 in (2438 mm) (FHC / OTS)
105.0 in (2667 mm) (2+2) [5]
• Length
175.3125 in (4453 mm) (FHC / OTS)
184.4375 in (4685 mm) (2+2) [5]
• Width
65.25 in (1657 mm) (all) [5]
• Height
48.125 in (1222 mm) (FHC)
50.125 in (1273 mm) (2+2)
46.5 in (1181 mm) (OTS)[5]
2,900 lb (1,315 kg) (FHC)
2,770 lb (1,256 kg) (OTS)
3,090 lb (1,402 kg) (2+2) [6]
• Fuel capacity
63.64 L (16.8 US gal; 14.0 imp gal)[5]
The Series 1 was introduced, initially for export only, in March 1961. The domestic market launch came four months later in July 1961.[7] The cars at this time used the triple SU carburetted 3.8 litre 6-cylinder Jaguar XK6 engine from the XK150S. The first 500 cars built had flat floors and external hood (bonnet) latches. These cars are rare and more valuable. After that, the floors were dished to provide more leg room and the twin hood latches moved to inside the car. The 3.8 litre engine was increased to 4.2 litres in October 1964.[7]
All E-Types featured independent coil spring rear suspension with torsion bar front ends, and four wheel disc brakes, in-board at the rear, all were power-assisted. Jaguar was one of the first auto manufacturers to equip cars with disc brakes as standard from the XK150 in 1958. The Series 1 can be recognised by glass covered headlights (up to 1967), small "mouth" opening at the front, signal lights and tail-lights above bumpers and exhaust tips under the licence plate in the rear.
3.8 litre cars have leather-upholstered bucket seats, an aluminium-trimmed centre instrument panel and console (changed to vinyl and leather in 1963), and a Moss 4-speed gearbox that lacks synchromesh for 1st gear ("Moss box"). 4.2 litre cars have more comfortable seats, improved brakes and electrical systems, and an all-synchromesh 4-speed gearbox. 4.2 litre cars also have a badge on the boot proclaiming "Jaguar 4.2 Litre E-Type" (3.8 cars have a simple "Jaguar" badge). Optional extras included chrome spoked wheels and a detachable hard top for the OTS.
An original E-Type hard top is very rare, and finding one intact with all the chrome, not to mention original paint in decent condition, is rather difficult. For those who want a hardtop and aren't fussy over whether or not it is an original from Jaguar, several third parties have recreated the hardtop to almost exact specifications. The cost ranges anywhere from double to triple the cost of a canvas/vinyl soft top.
A 2+2 version of the coupé was added in 1966. The 2+2 offered the option of an automatic transmission. The body is 9 in (229 mm) longer and the roof angles are different with a more vertical windscreen. The roadster remained a strict two-seater.
There was a transitional series of cars built in 1967-68, unofficially called "Series 1½", which are externally similar to Series 1 cars. Due to American pressure the new features were open headlights, different switches, and some de-tuning (with a downgrade of twin Zenith-Stromberg carbs from the original triple SU carbs) for US models. Some Series 1½ cars also have twin cooling fans and adjustable seat backs. Series 2 features were gradually introduced into the Series 1, creating the unofficial Series 1½ cars, but always with the Series 1 body style.
Less widely known, there was also right at the end of Series 1 production and prior to the transitional "Series 1½" referred to above, a very small number of Series 1 cars produced with open headlights.[8] These are sometimes referred to as "Series 1¼" cars.[9] Production dates on these machines vary but in right hand drive form production has been verified as late as March 1968.[10] It is thought that the low number of these cars produced relative to the other Series make them amongst the rarest of all production E Types.
An open 3.8 litre car, actually the first such production car to be completed, was tested by the British magazine The Motor in 1961 and had a top speed of 149.1 mph (240.0 km/h) and could accelerate from 0-60 mph (97 km/h) in 7.1 seconds. A fuel consumption of 21.3 miles per imperial gallon (13.3 L/100 km; 17.7 mpg-US) was recorded. The test car cost £2097 including taxes.[11]
Production numbers from Graham[12]:
• 15,490 3.8s
• 17,320 4.2s
• 10,930 2+2s
Production numbers from xkedata.com[13]: [omitted -- Flickr doesn't allow tables]
Series 2 (1969-1971)
Series II
• Production
2-door coupe
2-door convertible
3,018 lb (1,369 kg) (FHC)
2,750 lb (1,247 kg) (OTS)
3,090 lb (1,402 kg) (2+2) [6]
Open headlights without glass covers, a wrap-around rear bumper, re-positioned and larger front indicators and taillights below the bumpers, better cooling aided by an enlarged "mouth" and twin electric fans, and uprated brakes are hallmarks of Series 2 cars. De-tuned in US, but still with triple SUs in the UK, the engine is easily identified visually by the change from smooth polished cam covers to a more industrial 'ribbed' appearance. Late Series 1½ cars also had ribbed cam covers. The interior and dashboard were also redesigned, with rocker switches that met U.S health and safety regulations being substituted for toggle switches. The dashboard switches also lost their symmetrical layout. New seats were fitted, which purists claim lacked the style of the originals but were certainly more comfortable. Air conditioning and power steering were available as factory options.
Production according to Graham[12] is 13,490 of all types.
Series 2 production numbers from xkedata.com[13]: [omitted -- Flickr doesn't allow tables]
Official delivery numbers by market and year are listed in Porter[3] but no summary totals are given.
Series 3 (1971-1975)
Series III
• Production
1971–1975
2-door convertible
105 in (2667 mm) (both)[6]
• Length
184.4 in (4684 mm) (2+2)
184.5 in (4686 mm) (OTS)[6]
• Width
66.0 in (1676 mm) (2+2)
66.1 in (1679 mm) (OTS)[6]
• Height
48.9 in (1242 mm) (2+2)
48.1 in (1222 mm) (OTS)[6]
3,361 lb (1,525 kg) (2+2)
3,380 lb (1,533 kg) (OTS)[6]
• Fuel capacity
82 L (21.7 US gal; 18.0 imp gal)[14]
A new 5.3 L 12-cylinder Jaguar V12 engine was introduced, with uprated brakes and standard power steering. The short wheelbase FHC body style was discontinued and the V12 was available only as a convertible and 2+2 coupé. The convertible used the longer-wheelbase 2+2 floorplan. It is easily identifiable by the large cross-slatted front grille, flared wheel arches and a badge on the rear that proclaims it to be a V12. There were also a very limited number of 4.2 litre six-cylinder Series 3 E-Types built. These were featured in the initial sales literature. It is believed these are the rarest of all E-Types of any remaining.
In 2008 a British classic car enthusiast assembled what is surely the last ever E-Type from parts bought from the end-of-production surplus in 1974.[15]
Graham[12] lists production at 15,290.
Series 3 production numbers from xkedata.com[13]: [omitted -- Flickr doesn't allow tables]
Limited edtions
Two limited production E-Type variants were made as test beds, the Low Drag Coupe and Lightweight E-Type, both of which were raced:
Low Drag Coupé (1962)
Shortly after the introduction of the E-Type, Jaguar management wanted to investigate the possibility of building a car more in the spirit of the D-Type racer from which elements of the E-Type's styling and design were derived. One car was built to test the concept designed as a coupé as its monocoque design could only be made rigid enough for racing by using the "stressed skin" principle. Previous Jaguar racers were built as open-top cars because they were based on ladder frame designs with independent chassis and bodies. Unlike the steel production E-Types the LDC used lightweight aluminium. Sayer retained the original tub with lighter outer panels riveted and glued to it. The front steel sub frame remained intact, the windshield was given a more pronounced slope and the rear hatch welded shut. Rear brake cooling ducts appeared next to the rear windows,and the interior trim was discarded, with only insulation around the transmission tunnel. With the exception of the windscreen, all cockpit glass was plexi. A tuned version of Jaguar's 3.8 litre engine with a wide angle cylinder-head design tested on the D-Type racers was used. Air management became a major problem and, although much sexier looking and certainly faster than a production E-Type, the car was never competitive: the faster it went, the more it wanted to do what its design dictated: take off.
The one and only test bed car was completed in summer of 1962 but was sold a year later to Jaguar racing driver Dick Protheroe who raced it extensively and eventually sold it. Since then it has passed through the hands of several collectors on both sides of the Atlantic and now is believed to reside in the private collection of the current Viscount Cowdray.
Lightweight E-Type (1963-1964)
In some ways, this was an evolution of the Low Drag Coupé. It made extensive use of aluminium alloy in the body panels and other components. However, with at least one exception, it remained an open-top car in the spirit of the D-Type to which this car is a more direct successor than the production E-Type which is more of a GT than a sports car. The cars used a tuned version of the production 3.8 litre Jaguar engine with 300 bhp (224 kW) output rather than the 265 bhp (198 kW) produced by the "ordinary" version. At least one car is known to have been fitted with fuel-injection.
The cars were entered in various races but, unlike the C-Type and D-Type racing cars, they did not win at Le Mans or Sebring.
Motor Sport
Bob Jane won the 1963 Australian GT Championship at the wheel of an E-Type.
The Jaguar E-Type was very successful in SCCA Production sports car racing with Group44 and Bob Tullius taking the B-Production championship with a Series-3 V12 racer in 1975. A few years later, Gran-Turismo Jaguar from Cleveland Ohio campaigned a 4.2 L 6 cylinder FHC racer in SCCA production series and in 1980, won the National Championship in the SCCA C-Production Class defeating a fully funded factory Nissan Z-car team with Paul Newman.
See also
• Jaguar XK150 - predecessor to the E-Type
• Jaguar XJS - successor to the E-Type
• Jaguar XK8 - The E-Type's current and spiritual successor
• Guyson E12 - a rebodied series III built by William Towns
References
• ^ Loughborough graduate and designer of E Type Jaguar honoured
• ^ a b cPorter, Philip (2006). Jaguar E-type, the definitive history. p. 443. ISBN 0-85429-580-1.
• ^ a b"'69 Series 2 Jaguar E Types", Autocar, October 24, 1968
• ^ a b c d eThe Complete Official Jaguar "E". Cambridge: Robert Bentley. 1974. p. 12. ISBN 0-8376-0136-3.
• ^ a b c d e f g"Jaguar E-Type Specifications". http://www.web-cars.com/e-type/specifications.php. Retrieved 29 August 2009.
• ^ a b"Buying secondhand E-type Jaguar". Autocar 141 (nbr4042): pages 50–52. 6 April 1974.
• ^ See Jaguar Clubs of North America concourse information at: [1] and more specifically the actual Series 1½ concourse guide at [2]
• ^ Ibid.
• ^ Compare right hand drive VIN numbers given in JCNA concours guide referred to above with production dates for right hand drive cars as reflected in the XKEdata database at [3]
• ^"The Jaguar E-type". The Motor. March 22, 1961.
• ^ a b cRobson, Graham (2006). A–Z British Cars 1945–1980. Devon, UK: Herridge & Sons. ISBN 0-9541063-9-3.
• ^ a b chttp://www.xkedata.com/stats/. http://www.xkedata.com/stats/. Retrieved 29 August 2009.
• ^Daily Express Motor Show Review 1975 Cars: Page 24 (Jaguar E V12). October 1974.
• ^ jalopnik.com/5101872/british-man-cobbles-together-last-ja...
Winter scene as ‘Nicola’, nears completion, the first SD14 to be built by Austin & Pickersgill, Sunderland, 11 December 1967 (TWAM ref. 3396/51969 A).
This set celebrates the ‘Nicola’, the first in a long line of standard ships designed by the Sunderland shipyard of Austin & Pickersgill Ltd. The images document her construction from October 1967 through to her completion in February 1968. The shipbuilders commissioned the Newcastle-based firm Turners (Photography) Ltd to take weekly progress shots of the ‘Nicola’ and these images have given us a unique view of her development.
She was the first SD14 to be completed (the name stands for ‘Shelter Deck 14,000 tons deadweight’) and was designed as a replacement for the surviving ‘Liberty ships’, built by American yards during the Second World War. Those Liberty ships had played a vital role in the Allied victory but by the 1960s they were fast approaching the end of their working lives.
The SD14 developed by Austin & Pickersgill met the demand for economic and reliable cargo ships. The simplicity of the design meant that it could be marketed by the shipbuilders at a very competitive price. It’s success is reflected by the fact that over the course of 20 years 211 ships were built to the SD14 design by Austin Pickersgill and its licensees. Sunderland can be very proud of its remarkable shipbuilding and engineering history and the SD14 is one the City’s finest achievements.
(Copyright) We're happy for you to share these digital images within the spirit of The Commons. Please cite 'Tyne & Wear Archives & Museums' when reusing. Certain restrictions on high quality reproductions and commercial use of the original physical version apply though; if you're unsure please email archives@twmuseums.org.uk
Quoting from Wikipedia: Jaguar E-Type:
• • • • •
The Jaguar E-Type (UK) or XK-E (US) is a British automobile manufactured by Jaguar between 1961 and 1974. Its combination of good looks, high performance, and competitive pricing established the marque as an icon of 1960s motoring. A great success for Jaguar, over seventy thousand E-Types were sold during its lifespan.
In March 2008, the Jaguar E-Type ranked first in Daily Telegraph list of the "100 most beautiful cars" of all time.[2] In 2004, Sports Car International magazine placed the E-Type at number one on their list of Top Sports Cars of the 1960s.
Contents
•• 4.2 Lightweight E-Type (1963-1964)
Overview
The E-Type was initially designed and shown to the public as a grand tourer in two-seater coupé form (FHC or Fixed Head Coupé) and as convertible (OTS or Open Two Seater). The 2+2 version with a lengthened wheelbase was released several years later.
On its release Enzo Ferrari called it "The most beautiful car ever made".
The model was made in three distinct versions which are now generally referred to as "Series 1", "Series 2" and "Series 3". A transitional series between Series 1 and Series 2 is known unofficially as "Series 1½".
In addition, several limited-edition variants were produced:
• The "'Lightweight' E-Type" which was apparently intended as a sort of follow-up to the D-Type. Jaguar planned to produce 18 units but ultimately only a dozen were reportedly built. Of those, one is known to have been destroyed and two others have been converted to coupé form. These are exceedingly rare and sought after by collectors.
• The "Low Drag Coupé" was a one-off technical exercise which was ultimately sold to a Jaguar racing driver. It is presently believed to be part of the private collection of the current Viscount Cowdray.
Concept versions
E1A (1957)
After their success at LeMans 24 hr through the 1950s Jaguars defunct racing department were given the brief to use D-Type style construction to build a road going sports car, replacing the XK150.
It is suspected that the first prototype (E1A) was given the code based on: (E): The proposed production name E-Type (1): First Prototype (A): Aluminium construction (Production models used steel bodies)
The car featured a monocoque design, Jaguar's fully independent rear suspension and the well proved "XK" engine.
The car was used solely for factory testings and was never formally released to the public. The car was eventually scrapped by the factory
E2A (1960)
Jaguar's second E-Type concept was E2A which unlike E1A was constructed from a steel chassis and used a aluminium body. This car was completed as a race car as it was thought by Jaguar at the time it would provide a better testing ground.
E2A used a 3 litre version of the XK engine with a Lucas fuel injection system.
After retiring from the LeMans 24 hr the car was shipped to America to be used for racing by Jaguar privateer Briggs Cunningham.
In 1961 the car returned to Jaguar in England to be used as a testing mule.
Ownership of E2A passed to Roger Woodley (Jaguars customer competition car manager) who took possession on the basis the car not be used for racing. E2A had been scheduled to be scrapped.
Roger's wife Penny Griffiths owned E2A until 2008 when it was offered for sale at Bonham's Quail Auction. Sale price was US$4.5 million
Production versions
Series 1 (1961-1968)
Series I
• Production
2-door coupe
2-door convertible
96.0 in (2438 mm) (FHC / OTS)
105.0 in (2667 mm) (2+2) [5]
• Length
175.3125 in (4453 mm) (FHC / OTS)
184.4375 in (4685 mm) (2+2) [5]
• Width
65.25 in (1657 mm) (all) [5]
• Height
48.125 in (1222 mm) (FHC)
50.125 in (1273 mm) (2+2)
46.5 in (1181 mm) (OTS)[5]
2,900 lb (1,315 kg) (FHC)
2,770 lb (1,256 kg) (OTS)
3,090 lb (1,402 kg) (2+2) [6]
• Fuel capacity
63.64 L (16.8 US gal; 14.0 imp gal)[5]
The Series 1 was introduced, initially for export only, in March 1961. The domestic market launch came four months later in July 1961.[7] The cars at this time used the triple SU carburetted 3.8 litre 6-cylinder Jaguar XK6 engine from the XK150S. The first 500 cars built had flat floors and external hood (bonnet) latches. These cars are rare and more valuable. After that, the floors were dished to provide more leg room and the twin hood latches moved to inside the car. The 3.8 litre engine was increased to 4.2 litres in October 1964.[7]
All E-Types featured independent coil spring rear suspension with torsion bar front ends, and four wheel disc brakes, in-board at the rear, all were power-assisted. Jaguar was one of the first auto manufacturers to equip cars with disc brakes as standard from the XK150 in 1958. The Series 1 can be recognised by glass covered headlights (up to 1967), small "mouth" opening at the front, signal lights and tail-lights above bumpers and exhaust tips under the licence plate in the rear.
3.8 litre cars have leather-upholstered bucket seats, an aluminium-trimmed centre instrument panel and console (changed to vinyl and leather in 1963), and a Moss 4-speed gearbox that lacks synchromesh for 1st gear ("Moss box"). 4.2 litre cars have more comfortable seats, improved brakes and electrical systems, and an all-synchromesh 4-speed gearbox. 4.2 litre cars also have a badge on the boot proclaiming "Jaguar 4.2 Litre E-Type" (3.8 cars have a simple "Jaguar" badge). Optional extras included chrome spoked wheels and a detachable hard top for the OTS.
An original E-Type hard top is very rare, and finding one intact with all the chrome, not to mention original paint in decent condition, is rather difficult. For those who want a hardtop and aren't fussy over whether or not it is an original from Jaguar, several third parties have recreated the hardtop to almost exact specifications. The cost ranges anywhere from double to triple the cost of a canvas/vinyl soft top.
A 2+2 version of the coupé was added in 1966. The 2+2 offered the option of an automatic transmission. The body is 9 in (229 mm) longer and the roof angles are different with a more vertical windscreen. The roadster remained a strict two-seater.
There was a transitional series of cars built in 1967-68, unofficially called "Series 1½", which are externally similar to Series 1 cars. Due to American pressure the new features were open headlights, different switches, and some de-tuning (with a downgrade of twin Zenith-Stromberg carbs from the original triple SU carbs) for US models. Some Series 1½ cars also have twin cooling fans and adjustable seat backs. Series 2 features were gradually introduced into the Series 1, creating the unofficial Series 1½ cars, but always with the Series 1 body style.
Less widely known, there was also right at the end of Series 1 production and prior to the transitional "Series 1½" referred to above, a very small number of Series 1 cars produced with open headlights.[8] These are sometimes referred to as "Series 1¼" cars.[9] Production dates on these machines vary but in right hand drive form production has been verified as late as March 1968.[10] It is thought that the low number of these cars produced relative to the other Series make them amongst the rarest of all production E Types.
An open 3.8 litre car, actually the first such production car to be completed, was tested by the British magazine The Motor in 1961 and had a top speed of 149.1 mph (240.0 km/h) and could accelerate from 0-60 mph (97 km/h) in 7.1 seconds. A fuel consumption of 21.3 miles per imperial gallon (13.3 L/100 km; 17.7 mpg-US) was recorded. The test car cost £2097 including taxes.[11]
Production numbers from Graham[12]:
• 15,490 3.8s
• 17,320 4.2s
• 10,930 2+2s
Production numbers from xkedata.com[13]: [omitted -- Flickr doesn't allow tables]
Series 2 (1969-1971)
Series II
• Production
2-door coupe
2-door convertible
3,018 lb (1,369 kg) (FHC)
2,750 lb (1,247 kg) (OTS)
3,090 lb (1,402 kg) (2+2) [6]
Open headlights without glass covers, a wrap-around rear bumper, re-positioned and larger front indicators and taillights below the bumpers, better cooling aided by an enlarged "mouth" and twin electric fans, and uprated brakes are hallmarks of Series 2 cars. De-tuned in US, but still with triple SUs in the UK, the engine is easily identified visually by the change from smooth polished cam covers to a more industrial 'ribbed' appearance. Late Series 1½ cars also had ribbed cam covers. The interior and dashboard were also redesigned, with rocker switches that met U.S health and safety regulations being substituted for toggle switches. The dashboard switches also lost their symmetrical layout. New seats were fitted, which purists claim lacked the style of the originals but were certainly more comfortable. Air conditioning and power steering were available as factory options.
Production according to Graham[12] is 13,490 of all types.
Series 2 production numbers from xkedata.com[13]: [omitted -- Flickr doesn't allow tables]
Official delivery numbers by market and year are listed in Porter[3] but no summary totals are given.
Series 3 (1971-1975)
Series III
• Production
1971–1975
2-door convertible
105 in (2667 mm) (both)[6]
• Length
184.4 in (4684 mm) (2+2)
184.5 in (4686 mm) (OTS)[6]
• Width
66.0 in (1676 mm) (2+2)
66.1 in (1679 mm) (OTS)[6]
• Height
48.9 in (1242 mm) (2+2)
48.1 in (1222 mm) (OTS)[6]
3,361 lb (1,525 kg) (2+2)
3,380 lb (1,533 kg) (OTS)[6]
• Fuel capacity
82 L (21.7 US gal; 18.0 imp gal)[14]
A new 5.3 L 12-cylinder Jaguar V12 engine was introduced, with uprated brakes and standard power steering. The short wheelbase FHC body style was discontinued and the V12 was available only as a convertible and 2+2 coupé. The convertible used the longer-wheelbase 2+2 floorplan. It is easily identifiable by the large cross-slatted front grille, flared wheel arches and a badge on the rear that proclaims it to be a V12. There were also a very limited number of 4.2 litre six-cylinder Series 3 E-Types built. These were featured in the initial sales literature. It is believed these are the rarest of all E-Types of any remaining.
In 2008 a British classic car enthusiast assembled what is surely the last ever E-Type from parts bought from the end-of-production surplus in 1974.[15]
Graham[12] lists production at 15,290.
Series 3 production numbers from xkedata.com[13]: [omitted -- Flickr doesn't allow tables]
Limited edtions
Two limited production E-Type variants were made as test beds, the Low Drag Coupe and Lightweight E-Type, both of which were raced:
Low Drag Coupé (1962)
Shortly after the introduction of the E-Type, Jaguar management wanted to investigate the possibility of building a car more in the spirit of the D-Type racer from which elements of the E-Type's styling and design were derived. One car was built to test the concept designed as a coupé as its monocoque design could only be made rigid enough for racing by using the "stressed skin" principle. Previous Jaguar racers were built as open-top cars because they were based on ladder frame designs with independent chassis and bodies. Unlike the steel production E-Types the LDC used lightweight aluminium. Sayer retained the original tub with lighter outer panels riveted and glued to it. The front steel sub frame remained intact, the windshield was given a more pronounced slope and the rear hatch welded shut. Rear brake cooling ducts appeared next to the rear windows,and the interior trim was discarded, with only insulation around the transmission tunnel. With the exception of the windscreen, all cockpit glass was plexi. A tuned version of Jaguar's 3.8 litre engine with a wide angle cylinder-head design tested on the D-Type racers was used. Air management became a major problem and, although much sexier looking and certainly faster than a production E-Type, the car was never competitive: the faster it went, the more it wanted to do what its design dictated: take off.
The one and only test bed car was completed in summer of 1962 but was sold a year later to Jaguar racing driver Dick Protheroe who raced it extensively and eventually sold it. Since then it has passed through the hands of several collectors on both sides of the Atlantic and now is believed to reside in the private collection of the current Viscount Cowdray.
Lightweight E-Type (1963-1964)
In some ways, this was an evolution of the Low Drag Coupé. It made extensive use of aluminium alloy in the body panels and other components. However, with at least one exception, it remained an open-top car in the spirit of the D-Type to which this car is a more direct successor than the production E-Type which is more of a GT than a sports car. The cars used a tuned version of the production 3.8 litre Jaguar engine with 300 bhp (224 kW) output rather than the 265 bhp (198 kW) produced by the "ordinary" version. At least one car is known to have been fitted with fuel-injection.
The cars were entered in various races but, unlike the C-Type and D-Type racing cars, they did not win at Le Mans or Sebring.
Motor Sport
Bob Jane won the 1963 Australian GT Championship at the wheel of an E-Type.
The Jaguar E-Type was very successful in SCCA Production sports car racing with Group44 and Bob Tullius taking the B-Production championship with a Series-3 V12 racer in 1975. A few years later, Gran-Turismo Jaguar from Cleveland Ohio campaigned a 4.2 L 6 cylinder FHC racer in SCCA production series and in 1980, won the National Championship in the SCCA C-Production Class defeating a fully funded factory Nissan Z-car team with Paul Newman.
See also
• Jaguar XK150 - predecessor to the E-Type
• Jaguar XJS - successor to the E-Type
• Jaguar XK8 - The E-Type's current and spiritual successor
• Guyson E12 - a rebodied series III built by William Towns
References
• ^ Loughborough graduate and designer of E Type Jaguar honoured
• ^ a b cPorter, Philip (2006). Jaguar E-type, the definitive history. p. 443. ISBN 0-85429-580-1.
• ^ a b"'69 Series 2 Jaguar E Types", Autocar, October 24, 1968
• ^ a b c d eThe Complete Official Jaguar "E". Cambridge: Robert Bentley. 1974. p. 12. ISBN 0-8376-0136-3.
• ^ a b c d e f g"Jaguar E-Type Specifications". http://www.web-cars.com/e-type/specifications.php. Retrieved 29 August 2009.
• ^ a b"Buying secondhand E-type Jaguar". Autocar 141 (nbr4042): pages 50–52. 6 April 1974.
• ^ See Jaguar Clubs of North America concourse information at: [1] and more specifically the actual Series 1½ concourse guide at [2]
• ^ Ibid.
• ^ Compare right hand drive VIN numbers given in JCNA concours guide referred to above with production dates for right hand drive cars as reflected in the XKEdata database at [3]
• ^"The Jaguar E-type". The Motor. March 22, 1961.
• ^ a b cRobson, Graham (2006). A–Z British Cars 1945–1980. Devon, UK: Herridge & Sons. ISBN 0-9541063-9-3.
• ^ a b chttp://www.xkedata.com/stats/. http://www.xkedata.com/stats/. Retrieved 29 August 2009.
• ^Daily Express Motor Show Review 1975 Cars: Page 24 (Jaguar E V12). October 1974.
• ^ jalopnik.com/5101872/british-man-cobbles-together-last-ja...
Quoting from Wikipedia: Jaguar E-Type:
• • • • •
The Jaguar E-Type (UK) or XK-E (US) is a British automobile manufactured by Jaguar between 1961 and 1974. Its combination of good looks, high performance, and competitive pricing established the marque as an icon of 1960s motoring. A great success for Jaguar, over seventy thousand E-Types were sold during its lifespan.
In March 2008, the Jaguar E-Type ranked first in Daily Telegraph list of the "100 most beautiful cars" of all time.[2] In 2004, Sports Car International magazine placed the E-Type at number one on their list of Top Sports Cars of the 1960s.
Contents
•• 4.2 Lightweight E-Type (1963-1964)
Overview
The E-Type was initially designed and shown to the public as a grand tourer in two-seater coupé form (FHC or Fixed Head Coupé) and as convertible (OTS or Open Two Seater). The 2+2 version with a lengthened wheelbase was released several years later.
On its release Enzo Ferrari called it "The most beautiful car ever made".
The model was made in three distinct versions which are now generally referred to as "Series 1", "Series 2" and "Series 3". A transitional series between Series 1 and Series 2 is known unofficially as "Series 1½".
In addition, several limited-edition variants were produced:
• The "'Lightweight' E-Type" which was apparently intended as a sort of follow-up to the D-Type. Jaguar planned to produce 18 units but ultimately only a dozen were reportedly built. Of those, one is known to have been destroyed and two others have been converted to coupé form. These are exceedingly rare and sought after by collectors.
• The "Low Drag Coupé" was a one-off technical exercise which was ultimately sold to a Jaguar racing driver. It is presently believed to be part of the private collection of the current Viscount Cowdray.
Concept versions
E1A (1957)
After their success at LeMans 24 hr through the 1950s Jaguars defunct racing department were given the brief to use D-Type style construction to build a road going sports car, replacing the XK150.
It is suspected that the first prototype (E1A) was given the code based on: (E): The proposed production name E-Type (1): First Prototype (A): Aluminium construction (Production models used steel bodies)
The car featured a monocoque design, Jaguar's fully independent rear suspension and the well proved "XK" engine.
The car was used solely for factory testings and was never formally released to the public. The car was eventually scrapped by the factory
E2A (1960)
Jaguar's second E-Type concept was E2A which unlike E1A was constructed from a steel chassis and used a aluminium body. This car was completed as a race car as it was thought by Jaguar at the time it would provide a better testing ground.
E2A used a 3 litre version of the XK engine with a Lucas fuel injection system.
After retiring from the LeMans 24 hr the car was shipped to America to be used for racing by Jaguar privateer Briggs Cunningham.
In 1961 the car returned to Jaguar in England to be used as a testing mule.
Ownership of E2A passed to Roger Woodley (Jaguars customer competition car manager) who took possession on the basis the car not be used for racing. E2A had been scheduled to be scrapped.
Roger's wife Penny Griffiths owned E2A until 2008 when it was offered for sale at Bonham's Quail Auction. Sale price was US$4.5 million
Production versions
Series 1 (1961-1968)
Series I
• Production
2-door coupe
2-door convertible
96.0 in (2438 mm) (FHC / OTS)
105.0 in (2667 mm) (2+2) [5]
• Length
175.3125 in (4453 mm) (FHC / OTS)
184.4375 in (4685 mm) (2+2) [5]
• Width
65.25 in (1657 mm) (all) [5]
• Height
48.125 in (1222 mm) (FHC)
50.125 in (1273 mm) (2+2)
46.5 in (1181 mm) (OTS)[5]
2,900 lb (1,315 kg) (FHC)
2,770 lb (1,256 kg) (OTS)
3,090 lb (1,402 kg) (2+2) [6]
• Fuel capacity
63.64 L (16.8 US gal; 14.0 imp gal)[5]
The Series 1 was introduced, initially for export only, in March 1961. The domestic market launch came four months later in July 1961.[7] The cars at this time used the triple SU carburetted 3.8 litre 6-cylinder Jaguar XK6 engine from the XK150S. The first 500 cars built had flat floors and external hood (bonnet) latches. These cars are rare and more valuable. After that, the floors were dished to provide more leg room and the twin hood latches moved to inside the car. The 3.8 litre engine was increased to 4.2 litres in October 1964.[7]
All E-Types featured independent coil spring rear suspension with torsion bar front ends, and four wheel disc brakes, in-board at the rear, all were power-assisted. Jaguar was one of the first auto manufacturers to equip cars with disc brakes as standard from the XK150 in 1958. The Series 1 can be recognised by glass covered headlights (up to 1967), small "mouth" opening at the front, signal lights and tail-lights above bumpers and exhaust tips under the licence plate in the rear.
3.8 litre cars have leather-upholstered bucket seats, an aluminium-trimmed centre instrument panel and console (changed to vinyl and leather in 1963), and a Moss 4-speed gearbox that lacks synchromesh for 1st gear ("Moss box"). 4.2 litre cars have more comfortable seats, improved brakes and electrical systems, and an all-synchromesh 4-speed gearbox. 4.2 litre cars also have a badge on the boot proclaiming "Jaguar 4.2 Litre E-Type" (3.8 cars have a simple "Jaguar" badge). Optional extras included chrome spoked wheels and a detachable hard top for the OTS.
An original E-Type hard top is very rare, and finding one intact with all the chrome, not to mention original paint in decent condition, is rather difficult. For those who want a hardtop and aren't fussy over whether or not it is an original from Jaguar, several third parties have recreated the hardtop to almost exact specifications. The cost ranges anywhere from double to triple the cost of a canvas/vinyl soft top.
A 2+2 version of the coupé was added in 1966. The 2+2 offered the option of an automatic transmission. The body is 9 in (229 mm) longer and the roof angles are different with a more vertical windscreen. The roadster remained a strict two-seater.
There was a transitional series of cars built in 1967-68, unofficially called "Series 1½", which are externally similar to Series 1 cars. Due to American pressure the new features were open headlights, different switches, and some de-tuning (with a downgrade of twin Zenith-Stromberg carbs from the original triple SU carbs) for US models. Some Series 1½ cars also have twin cooling fans and adjustable seat backs. Series 2 features were gradually introduced into the Series 1, creating the unofficial Series 1½ cars, but always with the Series 1 body style.
Less widely known, there was also right at the end of Series 1 production and prior to the transitional "Series 1½" referred to above, a very small number of Series 1 cars produced with open headlights.[8] These are sometimes referred to as "Series 1¼" cars.[9] Production dates on these machines vary but in right hand drive form production has been verified as late as March 1968.[10] It is thought that the low number of these cars produced relative to the other Series make them amongst the rarest of all production E Types.
An open 3.8 litre car, actually the first such production car to be completed, was tested by the British magazine The Motor in 1961 and had a top speed of 149.1 mph (240.0 km/h) and could accelerate from 0-60 mph (97 km/h) in 7.1 seconds. A fuel consumption of 21.3 miles per imperial gallon (13.3 L/100 km; 17.7 mpg-US) was recorded. The test car cost £2097 including taxes.[11]
Production numbers from Graham[12]:
• 15,490 3.8s
• 17,320 4.2s
• 10,930 2+2s
Production numbers from xkedata.com[13]: [omitted -- Flickr doesn't allow tables]
Series 2 (1969-1971)
Series II
• Production
2-door coupe
2-door convertible
3,018 lb (1,369 kg) (FHC)
2,750 lb (1,247 kg) (OTS)
3,090 lb (1,402 kg) (2+2) [6]
Open headlights without glass covers, a wrap-around rear bumper, re-positioned and larger front indicators and taillights below the bumpers, better cooling aided by an enlarged "mouth" and twin electric fans, and uprated brakes are hallmarks of Series 2 cars. De-tuned in US, but still with triple SUs in the UK, the engine is easily identified visually by the change from smooth polished cam covers to a more industrial 'ribbed' appearance. Late Series 1½ cars also had ribbed cam covers. The interior and dashboard were also redesigned, with rocker switches that met U.S health and safety regulations being substituted for toggle switches. The dashboard switches also lost their symmetrical layout. New seats were fitted, which purists claim lacked the style of the originals but were certainly more comfortable. Air conditioning and power steering were available as factory options.
Production according to Graham[12] is 13,490 of all types.
Series 2 production numbers from xkedata.com[13]: [omitted -- Flickr doesn't allow tables]
Official delivery numbers by market and year are listed in Porter[3] but no summary totals are given.
Series 3 (1971-1975)
Series III
• Production
1971–1975
2-door convertible
105 in (2667 mm) (both)[6]
• Length
184.4 in (4684 mm) (2+2)
184.5 in (4686 mm) (OTS)[6]
• Width
66.0 in (1676 mm) (2+2)
66.1 in (1679 mm) (OTS)[6]
• Height
48.9 in (1242 mm) (2+2)
48.1 in (1222 mm) (OTS)[6]
3,361 lb (1,525 kg) (2+2)
3,380 lb (1,533 kg) (OTS)[6]
• Fuel capacity
82 L (21.7 US gal; 18.0 imp gal)[14]
A new 5.3 L 12-cylinder Jaguar V12 engine was introduced, with uprated brakes and standard power steering. The short wheelbase FHC body style was discontinued and the V12 was available only as a convertible and 2+2 coupé. The convertible used the longer-wheelbase 2+2 floorplan. It is easily identifiable by the large cross-slatted front grille, flared wheel arches and a badge on the rear that proclaims it to be a V12. There were also a very limited number of 4.2 litre six-cylinder Series 3 E-Types built. These were featured in the initial sales literature. It is believed these are the rarest of all E-Types of any remaining.
In 2008 a British classic car enthusiast assembled what is surely the last ever E-Type from parts bought from the end-of-production surplus in 1974.[15]
Graham[12] lists production at 15,290.
Series 3 production numbers from xkedata.com[13]: [omitted -- Flickr doesn't allow tables]
Limited edtions
Two limited production E-Type variants were made as test beds, the Low Drag Coupe and Lightweight E-Type, both of which were raced:
Low Drag Coupé (1962)
Shortly after the introduction of the E-Type, Jaguar management wanted to investigate the possibility of building a car more in the spirit of the D-Type racer from which elements of the E-Type's styling and design were derived. One car was built to test the concept designed as a coupé as its monocoque design could only be made rigid enough for racing by using the "stressed skin" principle. Previous Jaguar racers were built as open-top cars because they were based on ladder frame designs with independent chassis and bodies. Unlike the steel production E-Types the LDC used lightweight aluminium. Sayer retained the original tub with lighter outer panels riveted and glued to it. The front steel sub frame remained intact, the windshield was given a more pronounced slope and the rear hatch welded shut. Rear brake cooling ducts appeared next to the rear windows,and the interior trim was discarded, with only insulation around the transmission tunnel. With the exception of the windscreen, all cockpit glass was plexi. A tuned version of Jaguar's 3.8 litre engine with a wide angle cylinder-head design tested on the D-Type racers was used. Air management became a major problem and, although much sexier looking and certainly faster than a production E-Type, the car was never competitive: the faster it went, the more it wanted to do what its design dictated: take off.
The one and only test bed car was completed in summer of 1962 but was sold a year later to Jaguar racing driver Dick Protheroe who raced it extensively and eventually sold it. Since then it has passed through the hands of several collectors on both sides of the Atlantic and now is believed to reside in the private collection of the current Viscount Cowdray.
Lightweight E-Type (1963-1964)
In some ways, this was an evolution of the Low Drag Coupé. It made extensive use of aluminium alloy in the body panels and other components. However, with at least one exception, it remained an open-top car in the spirit of the D-Type to which this car is a more direct successor than the production E-Type which is more of a GT than a sports car. The cars used a tuned version of the production 3.8 litre Jaguar engine with 300 bhp (224 kW) output rather than the 265 bhp (198 kW) produced by the "ordinary" version. At least one car is known to have been fitted with fuel-injection.
The cars were entered in various races but, unlike the C-Type and D-Type racing cars, they did not win at Le Mans or Sebring.
Motor Sport
Bob Jane won the 1963 Australian GT Championship at the wheel of an E-Type.
The Jaguar E-Type was very successful in SCCA Production sports car racing with Group44 and Bob Tullius taking the B-Production championship with a Series-3 V12 racer in 1975. A few years later, Gran-Turismo Jaguar from Cleveland Ohio campaigned a 4.2 L 6 cylinder FHC racer in SCCA production series and in 1980, won the National Championship in the SCCA C-Production Class defeating a fully funded factory Nissan Z-car team with Paul Newman.
See also
• Jaguar XK150 - predecessor to the E-Type
• Jaguar XJS - successor to the E-Type
• Jaguar XK8 - The E-Type's current and spiritual successor
• Guyson E12 - a rebodied series III built by William Towns
References
• ^ Loughborough graduate and designer of E Type Jaguar honoured
• ^ a b cPorter, Philip (2006). Jaguar E-type, the definitive history. p. 443. ISBN 0-85429-580-1.
• ^ a b"'69 Series 2 Jaguar E Types", Autocar, October 24, 1968
• ^ a b c d eThe Complete Official Jaguar "E". Cambridge: Robert Bentley. 1974. p. 12. ISBN 0-8376-0136-3.
• ^ a b c d e f g"Jaguar E-Type Specifications". http://www.web-cars.com/e-type/specifications.php. Retrieved 29 August 2009.
• ^ a b"Buying secondhand E-type Jaguar". Autocar 141 (nbr4042): pages 50–52. 6 April 1974.
• ^ See Jaguar Clubs of North America concourse information at: [1] and more specifically the actual Series 1½ concourse guide at [2]
• ^ Ibid.
• ^ Compare right hand drive VIN numbers given in JCNA concours guide referred to above with production dates for right hand drive cars as reflected in the XKEdata database at [3]
• ^"The Jaguar E-type". The Motor. March 22, 1961.
• ^ a b cRobson, Graham (2006). A–Z British Cars 1945–1980. Devon, UK: Herridge & Sons. ISBN 0-9541063-9-3.
• ^ a b chttp://www.xkedata.com/stats/. http://www.xkedata.com/stats/. Retrieved 29 August 2009.
• ^Daily Express Motor Show Review 1975 Cars: Page 24 (Jaguar E V12). October 1974.
• ^ jalopnik.com/5101872/british-man-cobbles-together-last-ja...
A collection of Bodystockings from the fabulous Ohyeah range. These Bodystockings are very competitively priced and are of a high quality, the proof being the growing reputation of the Ohyeah brand in this country.
The Fiat 500, commonly known as "Topolino", is an Italian city car produced and manufactured by Fiat from 1936 to 1955.
The name "Topolino" translates literally as "little mouse" in Italian, but is also the Italian name for Mickey Mouse.
The Topolino was one of the smallest cars in the world at the time of its production. Launched in 1937, three models were produced until 1955, all with only minor mechanical and cosmetic changes. It was equipped with a 569 cc four-cylinder, side-valve, water-cooled engine mounted in front of the front axle, (later an overhead valve motor) and so was a full-scale car rather than a cyclecar. The radiator was located behind the engine which made possible a lowered aerodynamic nose profile at a time when competitors had a flat, nearly vertical grille. The shape of the car's front allowed exceptional forward visibility.
Rear suspension initially used quarter-elliptic rear springs, but buyers frequently squeezed four or five people into the nominally two-seater car, and in later models the chassis was extended at the rear to allow for more robust semi-elliptic springs.
With horsepower of about 13 bhp, its top speed was about 53 mph (85 km/h), and it could achieve about 39.2 miles per US gallon (6.00 L/100 km; 47.1 mpg-imp). The target price given when the car was planned was 5,000 lire. In the event the price at launch was 9,750 lire, though the decade was one of falling prices in several part of Europe and later in the 1930s the Topolino was sold for about 8,900 lire. Despite being more expensive than first envisioned, the car was competitively priced. Nearly 520,000 were sold.
Three models were produced. Model A and B shared the same body, only the engine of model B had 16 hp, vs. 13 hp of Model A. Model A was produced from 1937 to 1948, while B was produced in 1948 and 1949. Model A was offered as a 2-door coupé, 2-door cabriolet and a 2-door van, while Model B also introduced a 3-door estate under the name 500 B Giardinetta ("estate car"). Model C was introduced in 1949 with a restyled body and the same engine as Model B, and was offered in 2-door coupé, 2-door cabriolet, 3-door estate and 2-door van versions. In 1952, Giardinetta was renamed Belvedere ("A turret or other raised structure offering a pleasant view of the surrounding area", referring to its sunroof). Model C was produced until 1955.
In 1955 the larger rear-wheel-drive Fiat 600 was launched by Fiat and that would become the design basis for the new Fiat 500, the Nuova 500.
The 500A is known to be hot rodded, once the car came to America. It was mostly hot rodded to a dragster, or a street rod.
This little FIAT 500 Topolino is certainly the smallest miniland-scale car I have ever built, 7-wide and 17.5 stud long. Nonetheless, the car has rear beam axle suspension and opening engine cover and doors.
[Text from Wikipedia]
en.wikipedia.org/wiki/Fiat_500_%22Topolino%22
This Lego miniland-scale 1947 FIAT 500 Topolino has been created for Flickr LUGNuts' 103rd Build Challenge, titled - 'The Fabulous Forties!' - a challenge for any vehicle produced through the decade of the 1940s.
A collection of Bodystockings from the fabulous Ohyeah range. These Bodystockings are very competitively priced and are of a high quality, the proof being the growing reputation of the Ohyeah brand in this country.
A collection of Bodystockings from the fabulous Ohyeah range. These Bodystockings are very competitively priced and are of a high quality, the proof being the growing reputation of the Ohyeah brand in this country.
Cheap Limo Service!! We have learned that customer repetition is also depended on good competitive prices along with the services and we are a local company we bet that we can offer you exquisite service in low rates since no third party is involved, we ourselves own & maintain our cars and the chauffeurs know & love their job, we offer 10 % off on all of our round trip bookings.
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This hotel was built in the 1920's and must have been a beauty in those days. Located in one of the most beautiful places around and it still has it's grace. It was very popular back in the days and a lot of wealthy and royal visiters booked a night in here.
Unfortunately it had to close in the 1960's and nobody knows what to do with this beautiful but detriorated building. Well, almost nobody except us...
Please visit www.preciousdecay.com for more pictures and follow me on Facebook on www.facebook.com/Preciousdecay
If you are interested in some of my work then please contact me by personal message. I can offer you various a-class materials for competitive prices and worldwide shipping.
A K Wig Designs is purely an online shop supplying custom styled wigs, hairpieces,fashion wigs and accessories to the Entertainment industry and the general public at competitive prices. Here you will find a range of various styles and shades to suit almost any taste. It all started back in 1978 when I took an avid interest in the world of Hairstyling, immediately I became captivated in the high glamour of the showbiz world and the big backcombed bouffant of the various screen sirens like Elizabeth Taylor, Joan Collins, marylin Monroe and many other icons of past and present.
I knew that I was destined to have a tail comb and lots of hairdo’s to create and immediately pursued a career in theatre film and television.Having worked and gained over 25+ years in the art of hair/wig dressing and makeup on some of London’s biggest west end shows like, the phantom of the opera, the king and I, and Jesus Christ superstar and TV shows like Coronation street.I then felt that I wanted to go a step further and pursued the world of drag artists and the transgendered world where I knew I could let my wig/hairdressing skills and imagination run wild, I visited many bars and clubs around the UK offering my hair/wig dressing services and experience, and to my amazement I was confronted by drag artists saying “Thank God there are people like you in the world, what would we do without huge hair?” By this time I knew I had something that all drag artists longed for and that was Big Backcombed tresses, so in 1999 I felt the need to reach a much larger target by reaching the medical sector and helping those sadly suffering from hair loss.Since
Enjoying high acclaim in offering the entertainment industry, medical sector and the general public help and advice and the convenience of viewing and purchasing high quality products at competitive prices.Some wigs are designed to order in varied colours (subject to stock availabilty ) .Visit my shop for the latest in fashion wigs,hairpieces,custom styled wigs and accessories
This hotel was built in the 1920's and must have been a beauty in those days. Located in one of the most beautiful places around and it still has it's grace. It was very popular back in the days and a lot of wealthy and royal visiters booked a night in here.
Unfortunately it had to close in the 1960's and nobody knows what to do with this beautiful but detriorated building. Well, almost nobody except us...
Please visit www.preciousdecay.com for more pictures and follow me on Facebook on www.facebook.com/Preciousdecay
If you are interested in some of my work then please contact me by personal message. I can offer you various a-class materials for competitive prices and worldwide shipping.
In the forefront of Ford of Dagenham’s 1961 line-up is the Ford Consul Classic, launched with much hoop-la in May. It was competitively priced, but its looks did not win popular appeal. The model was phased out in October 1963, replaced by the better-selling Corsair. The Ford 105E Anglia behind was a big seller, enjoying an eight-year production life until early 1968. The lusty 6-cylinder Zephyr was nearing the end of its production. A personal favourite, it would be replaced by the square-cut Zephyr III in 1962. Bringing up the rear is an almost forgotten model, the Classic-derived Capri coupe. Its name would be revived in 1969 by a much more successful car.
GatoNegro’s high-quality, competitively priced Chilean wines are produced by Viňa San Pedro; it is one of Chile’s oldest wineries dating back to 1865. GatoNegro wines are recognized for outstanding value and the playful black cat featured on the front label. Currently, GatoNegro is sold in more than 80 countries on 5 continents. Due to its immense popularity, three bottles of GatoNegro are being opened somewhere in the world every two seconds. As one of the most sustainably produced wines in the world, GatoNegro truly is “Adored Everywhere!”
AC 428 Frau Fastback Coupe (1976-72) Engine 7015cc V8 OHV Production 80 (51 Convertibles + 29 Fastback coupe's)
Registration Number MYW 927 L
AC CARS SET
www.flickr.com/photos/45676495@N05/sets/72157623759779024...
The AC Frua or AC 428 was a GT built by AC from 1965 to 1973.
The Frua is built on an AC Cobra 427 Mark III chassis extended by 6 inches Chassis were built at the AC plant in England then shipped to Frua's workshop in Italy where the body was fitted and then sent back to England to have the power train and trim added. The cost was high and the cars could not be sold at a competitive price unlike some other Italian built supercars the AC Frua features fully independent racing based coil spring suspension.
the car had immense performance; the big-block Ford FE engine had larger capacity, more torque and more power than similar Italian cars, but in a car of similar weight.
The AC Frua may be confused with the very similar looking Pietro Frua designed Maserati Mistral. However, only the front quarter windows and door handles are shared.
Shot at the Goodwood Festival of Speed 30:06:2012 Ref: 87-009
twitter.com/keltruck/status/1514166866717126656
Three new @ScottsPlant #ScaniaXT P410 #tippers #SuppliedByKeltruck.
#ScottsPlantAndHaulage #ScottsPlant #Evesham #Worcestershire #Worcs #WestMidlands #WestMids #WR11 #England | scottsplant.co.uk
Spec & order your new #Scania at keltruckscania.com/sales.
#ScaniaTippers #ScaniaTough #payload #SaveOnFuel
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Scotts Plant ensures reliability of its Scania tippers with long-term repair and maintenance from Keltruck
Based in Evesham, Scotts Plant and Haulage supplies muckaway, aggregates, sand and gravel, topsoil and road planings throughout its local area. Reliability is a top priority for the company, and Scotts therefore operates a fleet of 18 tippers 12 of which are Scania, with another four on order this year. All the vehicles are fully maintained by Keltruck at its Droitwich site, with long-term repair and maintenance services using Scania support programmes.
“We aim to be the best in our field,” said Scott Witheford, managing director of Scotts Plant and Haulage. “We have chosen Scania trucks as we consider them to be the best – they are reliable, minimising down time, and they are fuel efficient too.”
Scotts Plant has chosen a six-year Scania Repair & Maintenance package on all of its vehicles from Keltruck, giving it predictable costs and peace of mind. Scott said, “We don't want to be involved with the repair and maintenance of our trucks in-house, so we have opted to take a package to cover their upkeep for the entire length of time we intend to own them.”
“Keltruck Droitwich always go the extra mile for us – providing a first-class service for the life of the truck with repairs, maintenance and parts when we need them,” added Scott.
The vehicles are a combination of Scania P-Series and G-Series 8x4 tippers with the Scania XT package, with a mix of steel and lightweight alloy. All vehicles have been supplied by Keltruck Account Manager Tony Biddlestone, and Keltruck has been working with Scotts Plant for 20 years.
“We enjoy dealing with Keltruck – Tony makes sure we get the right spec trucks and looks after us on the purchasing,” said Scott. “The tippers look good with our livery and the drivers like them. All in all they fit in well with what we want to achieve.”
Founded in 2000, Scotts Plant and Haulage supplies muckaway, aggregates, sand and gravel, topsoil and road planings throughout Worcestershire, Warwickshire, Gloucestershire, and Oxfordshire – 24 hours a day, 7 days a week. With access to almost every quarry and landfill in a 30-mile radius of Evesham, Scotts can offer a service for import and export of any material from any site – with competitive prices and unrivalled delivery times.
The latest delivery consists of three Scania XT P410 with city safe windows and Boweld bodies, all on six year full R&M contract.
For more information on Keltruck’s support programmes and aftersales service, see keltruckscania.com/supportprogrammes.
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The first of a development of one million exciting BREXIT inspired starter homes - on the foreshore at Lytham, Lancashire. Comprising of a deceptively spacious but compact living/sleeping room and benefitting from an airy al fresco dining area with fabulous views - furnished with locally sourced materials competitively priced from £300,000. Poll Tax Band B and not subject to ULEZ . Viewing highly
View of ‘Nicola’ shortly before launch from the Southwick yard of Austin & Pickersgill Ltd, mid December 1967 (TWAM ref. DT.TUR/2/52047B). She's getting a coat of paint and you can now see her name.
This set celebrates the ‘Nicola’, the first in a long line of standard ships designed by the Sunderland shipyard of Austin & Pickersgill Ltd. The images document her construction from October 1967 through to her completion in February 1968. The shipbuilders commissioned the Newcastle-based firm Turners (Photography) Ltd to take weekly progress shots of the ‘Nicola’ and these images have given us a unique view of her development.
She was the first SD14 to be completed (the name stands for ‘Shelter Deck 14,000 tons deadweight’) and was designed as a replacement for the surviving ‘Liberty ships’, built by American yards during the Second World War. Those Liberty ships had played a vital role in the Allied victory but by the 1960s they were fast approaching the end of their working lives.
The SD14 developed by Austin & Pickersgill met the demand for economic and reliable cargo ships. The simplicity of the design meant that it could be marketed by the shipbuilders at a very competitive price. It’s success is reflected by the fact that over the course of 20 years 211 ships were built to the SD14 design by Austin Pickersgill and its licensees. Sunderland can be very proud of its remarkable shipbuilding and engineering history and the SD14 is one the City’s finest achievements.
(Copyright) We're happy for you to share these digital images within the spirit of The Commons. Please cite 'Tyne & Wear Archives & Museums' when reusing. Certain restrictions on high quality reproductions and commercial use of the original physical version apply though; if you're unsure please email archives@twmuseums.org.uk
Quoting from Wikipedia: Jaguar E-Type:
• • • • •
The Jaguar E-Type (UK) or XK-E (US) is a British automobile manufactured by Jaguar between 1961 and 1974. Its combination of good looks, high performance, and competitive pricing established the marque as an icon of 1960s motoring. A great success for Jaguar, over seventy thousand E-Types were sold during its lifespan.
In March 2008, the Jaguar E-Type ranked first in Daily Telegraph list of the "100 most beautiful cars" of all time.[2] In 2004, Sports Car International magazine placed the E-Type at number one on their list of Top Sports Cars of the 1960s.
Contents
•• 4.2 Lightweight E-Type (1963-1964)
Overview
The E-Type was initially designed and shown to the public as a grand tourer in two-seater coupé form (FHC or Fixed Head Coupé) and as convertible (OTS or Open Two Seater). The 2+2 version with a lengthened wheelbase was released several years later.
On its release Enzo Ferrari called it "The most beautiful car ever made".
The model was made in three distinct versions which are now generally referred to as "Series 1", "Series 2" and "Series 3". A transitional series between Series 1 and Series 2 is known unofficially as "Series 1½".
In addition, several limited-edition variants were produced:
• The "'Lightweight' E-Type" which was apparently intended as a sort of follow-up to the D-Type. Jaguar planned to produce 18 units but ultimately only a dozen were reportedly built. Of those, one is known to have been destroyed and two others have been converted to coupé form. These are exceedingly rare and sought after by collectors.
• The "Low Drag Coupé" was a one-off technical exercise which was ultimately sold to a Jaguar racing driver. It is presently believed to be part of the private collection of the current Viscount Cowdray.
Concept versions
E1A (1957)
After their success at LeMans 24 hr through the 1950s Jaguars defunct racing department were given the brief to use D-Type style construction to build a road going sports car, replacing the XK150.
It is suspected that the first prototype (E1A) was given the code based on: (E): The proposed production name E-Type (1): First Prototype (A): Aluminium construction (Production models used steel bodies)
The car featured a monocoque design, Jaguar's fully independent rear suspension and the well proved "XK" engine.
The car was used solely for factory testings and was never formally released to the public. The car was eventually scrapped by the factory
E2A (1960)
Jaguar's second E-Type concept was E2A which unlike E1A was constructed from a steel chassis and used a aluminium body. This car was completed as a race car as it was thought by Jaguar at the time it would provide a better testing ground.
E2A used a 3 litre version of the XK engine with a Lucas fuel injection system.
After retiring from the LeMans 24 hr the car was shipped to America to be used for racing by Jaguar privateer Briggs Cunningham.
In 1961 the car returned to Jaguar in England to be used as a testing mule.
Ownership of E2A passed to Roger Woodley (Jaguars customer competition car manager) who took possession on the basis the car not be used for racing. E2A had been scheduled to be scrapped.
Roger's wife Penny Griffiths owned E2A until 2008 when it was offered for sale at Bonham's Quail Auction. Sale price was US$4.5 million
Production versions
Series 1 (1961-1968)
Series I
• Production
2-door coupe
2-door convertible
96.0 in (2438 mm) (FHC / OTS)
105.0 in (2667 mm) (2+2) [5]
• Length
175.3125 in (4453 mm) (FHC / OTS)
184.4375 in (4685 mm) (2+2) [5]
• Width
65.25 in (1657 mm) (all) [5]
• Height
48.125 in (1222 mm) (FHC)
50.125 in (1273 mm) (2+2)
46.5 in (1181 mm) (OTS)[5]
2,900 lb (1,315 kg) (FHC)
2,770 lb (1,256 kg) (OTS)
3,090 lb (1,402 kg) (2+2) [6]
• Fuel capacity
63.64 L (16.8 US gal; 14.0 imp gal)[5]
The Series 1 was introduced, initially for export only, in March 1961. The domestic market launch came four months later in July 1961.[7] The cars at this time used the triple SU carburetted 3.8 litre 6-cylinder Jaguar XK6 engine from the XK150S. The first 500 cars built had flat floors and external hood (bonnet) latches. These cars are rare and more valuable. After that, the floors were dished to provide more leg room and the twin hood latches moved to inside the car. The 3.8 litre engine was increased to 4.2 litres in October 1964.[7]
All E-Types featured independent coil spring rear suspension with torsion bar front ends, and four wheel disc brakes, in-board at the rear, all were power-assisted. Jaguar was one of the first auto manufacturers to equip cars with disc brakes as standard from the XK150 in 1958. The Series 1 can be recognised by glass covered headlights (up to 1967), small "mouth" opening at the front, signal lights and tail-lights above bumpers and exhaust tips under the licence plate in the rear.
3.8 litre cars have leather-upholstered bucket seats, an aluminium-trimmed centre instrument panel and console (changed to vinyl and leather in 1963), and a Moss 4-speed gearbox that lacks synchromesh for 1st gear ("Moss box"). 4.2 litre cars have more comfortable seats, improved brakes and electrical systems, and an all-synchromesh 4-speed gearbox. 4.2 litre cars also have a badge on the boot proclaiming "Jaguar 4.2 Litre E-Type" (3.8 cars have a simple "Jaguar" badge). Optional extras included chrome spoked wheels and a detachable hard top for the OTS.
An original E-Type hard top is very rare, and finding one intact with all the chrome, not to mention original paint in decent condition, is rather difficult. For those who want a hardtop and aren't fussy over whether or not it is an original from Jaguar, several third parties have recreated the hardtop to almost exact specifications. The cost ranges anywhere from double to triple the cost of a canvas/vinyl soft top.
A 2+2 version of the coupé was added in 1966. The 2+2 offered the option of an automatic transmission. The body is 9 in (229 mm) longer and the roof angles are different with a more vertical windscreen. The roadster remained a strict two-seater.
There was a transitional series of cars built in 1967-68, unofficially called "Series 1½", which are externally similar to Series 1 cars. Due to American pressure the new features were open headlights, different switches, and some de-tuning (with a downgrade of twin Zenith-Stromberg carbs from the original triple SU carbs) for US models. Some Series 1½ cars also have twin cooling fans and adjustable seat backs. Series 2 features were gradually introduced into the Series 1, creating the unofficial Series 1½ cars, but always with the Series 1 body style.
Less widely known, there was also right at the end of Series 1 production and prior to the transitional "Series 1½" referred to above, a very small number of Series 1 cars produced with open headlights.[8] These are sometimes referred to as "Series 1¼" cars.[9] Production dates on these machines vary but in right hand drive form production has been verified as late as March 1968.[10] It is thought that the low number of these cars produced relative to the other Series make them amongst the rarest of all production E Types.
An open 3.8 litre car, actually the first such production car to be completed, was tested by the British magazine The Motor in 1961 and had a top speed of 149.1 mph (240.0 km/h) and could accelerate from 0-60 mph (97 km/h) in 7.1 seconds. A fuel consumption of 21.3 miles per imperial gallon (13.3 L/100 km; 17.7 mpg-US) was recorded. The test car cost £2097 including taxes.[11]
Production numbers from Graham[12]:
• 15,490 3.8s
• 17,320 4.2s
• 10,930 2+2s
Production numbers from xkedata.com[13]: [omitted -- Flickr doesn't allow tables]
Series 2 (1969-1971)
Series II
• Production
2-door coupe
2-door convertible
3,018 lb (1,369 kg) (FHC)
2,750 lb (1,247 kg) (OTS)
3,090 lb (1,402 kg) (2+2) [6]
Open headlights without glass covers, a wrap-around rear bumper, re-positioned and larger front indicators and taillights below the bumpers, better cooling aided by an enlarged "mouth" and twin electric fans, and uprated brakes are hallmarks of Series 2 cars. De-tuned in US, but still with triple SUs in the UK, the engine is easily identified visually by the change from smooth polished cam covers to a more industrial 'ribbed' appearance. Late Series 1½ cars also had ribbed cam covers. The interior and dashboard were also redesigned, with rocker switches that met U.S health and safety regulations being substituted for toggle switches. The dashboard switches also lost their symmetrical layout. New seats were fitted, which purists claim lacked the style of the originals but were certainly more comfortable. Air conditioning and power steering were available as factory options.
Production according to Graham[12] is 13,490 of all types.
Series 2 production numbers from xkedata.com[13]: [omitted -- Flickr doesn't allow tables]
Official delivery numbers by market and year are listed in Porter[3] but no summary totals are given.
Series 3 (1971-1975)
Series III
• Production
1971–1975
2-door convertible
105 in (2667 mm) (both)[6]
• Length
184.4 in (4684 mm) (2+2)
184.5 in (4686 mm) (OTS)[6]
• Width
66.0 in (1676 mm) (2+2)
66.1 in (1679 mm) (OTS)[6]
• Height
48.9 in (1242 mm) (2+2)
48.1 in (1222 mm) (OTS)[6]
3,361 lb (1,525 kg) (2+2)
3,380 lb (1,533 kg) (OTS)[6]
• Fuel capacity
82 L (21.7 US gal; 18.0 imp gal)[14]
A new 5.3 L 12-cylinder Jaguar V12 engine was introduced, with uprated brakes and standard power steering. The short wheelbase FHC body style was discontinued and the V12 was available only as a convertible and 2+2 coupé. The convertible used the longer-wheelbase 2+2 floorplan. It is easily identifiable by the large cross-slatted front grille, flared wheel arches and a badge on the rear that proclaims it to be a V12. There were also a very limited number of 4.2 litre six-cylinder Series 3 E-Types built. These were featured in the initial sales literature. It is believed these are the rarest of all E-Types of any remaining.
In 2008 a British classic car enthusiast assembled what is surely the last ever E-Type from parts bought from the end-of-production surplus in 1974.[15]
Graham[12] lists production at 15,290.
Series 3 production numbers from xkedata.com[13]: [omitted -- Flickr doesn't allow tables]
Limited edtions
Two limited production E-Type variants were made as test beds, the Low Drag Coupe and Lightweight E-Type, both of which were raced:
Low Drag Coupé (1962)
Shortly after the introduction of the E-Type, Jaguar management wanted to investigate the possibility of building a car more in the spirit of the D-Type racer from which elements of the E-Type's styling and design were derived. One car was built to test the concept designed as a coupé as its monocoque design could only be made rigid enough for racing by using the "stressed skin" principle. Previous Jaguar racers were built as open-top cars because they were based on ladder frame designs with independent chassis and bodies. Unlike the steel production E-Types the LDC used lightweight aluminium. Sayer retained the original tub with lighter outer panels riveted and glued to it. The front steel sub frame remained intact, the windshield was given a more pronounced slope and the rear hatch welded shut. Rear brake cooling ducts appeared next to the rear windows,and the interior trim was discarded, with only insulation around the transmission tunnel. With the exception of the windscreen, all cockpit glass was plexi. A tuned version of Jaguar's 3.8 litre engine with a wide angle cylinder-head design tested on the D-Type racers was used. Air management became a major problem and, although much sexier looking and certainly faster than a production E-Type, the car was never competitive: the faster it went, the more it wanted to do what its design dictated: take off.
The one and only test bed car was completed in summer of 1962 but was sold a year later to Jaguar racing driver Dick Protheroe who raced it extensively and eventually sold it. Since then it has passed through the hands of several collectors on both sides of the Atlantic and now is believed to reside in the private collection of the current Viscount Cowdray.
Lightweight E-Type (1963-1964)
In some ways, this was an evolution of the Low Drag Coupé. It made extensive use of aluminium alloy in the body panels and other components. However, with at least one exception, it remained an open-top car in the spirit of the D-Type to which this car is a more direct successor than the production E-Type which is more of a GT than a sports car. The cars used a tuned version of the production 3.8 litre Jaguar engine with 300 bhp (224 kW) output rather than the 265 bhp (198 kW) produced by the "ordinary" version. At least one car is known to have been fitted with fuel-injection.
The cars were entered in various races but, unlike the C-Type and D-Type racing cars, they did not win at Le Mans or Sebring.
Motor Sport
Bob Jane won the 1963 Australian GT Championship at the wheel of an E-Type.
The Jaguar E-Type was very successful in SCCA Production sports car racing with Group44 and Bob Tullius taking the B-Production championship with a Series-3 V12 racer in 1975. A few years later, Gran-Turismo Jaguar from Cleveland Ohio campaigned a 4.2 L 6 cylinder FHC racer in SCCA production series and in 1980, won the National Championship in the SCCA C-Production Class defeating a fully funded factory Nissan Z-car team with Paul Newman.
See also
• Jaguar XK150 - predecessor to the E-Type
• Jaguar XJS - successor to the E-Type
• Jaguar XK8 - The E-Type's current and spiritual successor
• Guyson E12 - a rebodied series III built by William Towns
References
• ^ Loughborough graduate and designer of E Type Jaguar honoured
• ^ a b cPorter, Philip (2006). Jaguar E-type, the definitive history. p. 443. ISBN 0-85429-580-1.
• ^ a b"'69 Series 2 Jaguar E Types", Autocar, October 24, 1968
• ^ a b c d eThe Complete Official Jaguar "E". Cambridge: Robert Bentley. 1974. p. 12. ISBN 0-8376-0136-3.
• ^ a b c d e f g"Jaguar E-Type Specifications". http://www.web-cars.com/e-type/specifications.php. Retrieved 29 August 2009.
• ^ a b"Buying secondhand E-type Jaguar". Autocar 141 (nbr4042): pages 50–52. 6 April 1974.
• ^ See Jaguar Clubs of North America concourse information at: [1] and more specifically the actual Series 1½ concourse guide at [2]
• ^ Ibid.
• ^ Compare right hand drive VIN numbers given in JCNA concours guide referred to above with production dates for right hand drive cars as reflected in the XKEdata database at [3]
• ^"The Jaguar E-type". The Motor. March 22, 1961.
• ^ a b cRobson, Graham (2006). A–Z British Cars 1945–1980. Devon, UK: Herridge & Sons. ISBN 0-9541063-9-3.
• ^ a b chttp://www.xkedata.com/stats/. http://www.xkedata.com/stats/. Retrieved 29 August 2009.
• ^Daily Express Motor Show Review 1975 Cars: Page 24 (Jaguar E V12). October 1974.
• ^ jalopnik.com/5101872/british-man-cobbles-together-last-ja...
The Jaguar E-Type (a.k.a. Jaguar XK-E) is a British sports car, which was manufactured by Jaguar Cars Ltd between 1961 and 1975. Its combination of good looks, high performance and competitive pricing established the marque as an icon of 1960s motoring. More than 70,000 E-Types were sold.
In March 2008, the Jaguar E-Type ranked first in a The Daily Telegraph online list of the world's "100 most beautiful cars" of all time.
In 2004, Sports Car International magazine placed the E-Type at number one on their list of Top Sports Cars of the 1960s.
The E-Type was initially designed and shown to the public as a rear-wheel drive grand tourer in two-seater coupé form (FHC or Fixed Head Coupé) and as a two-seater convertible (OTS or Open Two Seater). A "2+2" four-seater version of the coupé, with a lengthened wheelbase, was released several years later.
On its release Enzo Ferrari called it "The most beautiful car ever made".
Taken with a Nikon D90
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The Topolino was the name given to an automobile model manufactured by Fiat from 1936 to 1955.
The Topolino (the Italian name for Mickey Mouse, meaning "little mouse") was the name given to the first Fiat 500 which was one of the smallest cars in the world at the time of its production. Launched in 1937, three models were produced until 1955, all with only minor mechanical and cosmetic changes. It was equipped with a 569 cc four-cylinder, side valve, water-cooled engine mounted in front of the front axle, and so was a full-scale car rather than a cyclecar. The radiator was located behind the engine which made possible a lowered wind-cheating nose profile at a time when competitor vehicles confronted the world with flat near vertical front grills. The shape of the car's front gave it exceptional forward visibility[2].
Suspension at the back initially depended on quarter-elliptic rear springs, but somehow buyers frequently squeezed four or five people into the nominally two seater car, and in later models the chassis was extended at the rear to allow for more robust semi-elliptic springs[2].
Its top speed was about 53 mph (85 km/h), and it could achieve about 39.2 miles per US gallon (6.00 L/100 km; 47.1 mpg-imp). The target price given when the car was planned was 5,000 lire[2]. In the event the price at launch was 9,750 lire [2], though the decade was one of falling prices in several part of Europe and later in the 1930s the Topolino was sold for about 8,900 lire. Despite being more expensive than first envisaged, the car was very competitively priced[2]. Nearly 520,000 were sold.
(Wikipedia)
- - -
Der Fiat 500 der Jahre 1936-57 war ein zweisitziger Kleinwagen der Marke Fiat. In Abgrenzung zu seinem gleichnamigen Nachfolger wird er mit seinem Spitznamen Topolino bezeichnet, das Modell der Jahre 1957–1975 hingegen als Nuova 500.
Der erste Fiat 500 − in Italien auch liebevoll Topolino genannt (zu deutsch: Mäuschen, aber auch der italienische Name der US-amerikanischen Comicfigur Mickey Mouse aus dieser Zeit) − wurde in den Jahren 1936 bis 1955 in drei Versionen insgesamt 516.646-mal gebaut. Außer der normalen zweisitzigen PKW-Ausführung (Berlina) gab es ab 1949 auch einen optional viersitzigen Kombi (Giardiniera Belvedere) und schon ein paar Jahre vorher einen kleinen Lieferwagen (Furgoncino). Alle Modelle waren mit Faltdach lieferbar. Für den Export nach England wurde eine viersitzige Cabriolimousine gebaut und die Firma Weinsberg baute einen Roadster. Konstrukteur des Topolino war der Ingenieur Dante Giacosa.
(Wikipedia)
The Jaguar E-Type, or the Jaguar XK-E for the North American market, is a British sports car that was manufactured by Jaguar Cars Ltd between 1961 and 1975. Its combination of beauty, high performance, and competitive pricing established the model as an icon of the motoring world. The E-Type's 150 mph (241 km/h) top speed, sub-7-second 0 to 60 mph (97 km/h) acceleration, monocoque construction, disc brakes, rack-and-pinion steering, and independent front and rear suspension distinguished the car and spurred industry-wide changes. The E-Type was based on Jaguar's D-Type racing car, which had won the 24 Hours of Le Mans three consecutive years beginning 1955, and employed what was, for the early 1960s, a novel racing design principle, with a front subframe carrying the engine, front suspension and front bodywork bolted directly to the body tub. No ladderfame chassis, as was common at the time, was needed and as such the first cars weighed only 1315kg (2900lb).
On its release in March 1961 Enzo Ferrari called it "the most beautiful car ever made". In 2004, Sports Car International magazine placed the E-Type at number one on their list of Top Sports Cars of the 1960s. In March 2008, the Jaguar E-Type ranked first in The Daily Telegraph online list of the world's "100 most beautiful cars" of all time. Outside automotive circles, the E-type received prominent placement in Diabolik comic series, Austin Powers films and the television series Mad Men.
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Suction Cups For Granite T
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Weha Suction Cup Assembly: 2 7' Bars and 12 Custom Double Suction Cups for Transporting Finishing Granite and Stone Counter Tops
Weha Granite and Stone Counter Top Suction Cup Assembly consists of 2 capped aluminum rails and 12 double suction cups.
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Description
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Here's the final version of the mirror and the vanity-turned-credenza is set with Gloria silver chromed champagne bucket and fruit stand; the champagne bottle is Fashion Royalty and the fruit is from a refrigerator magnet I bought over 10 years ago at Lechter's housewares store; the tray, cheese, oyster plate and etched "crystal" candy dish are all RE-MENT; the little silver covered candy dishes were from a dollhouse accessories dealer at the Rothman show in New Jersey; the photo frames are tiny Christmas ornament charms with images of the Duke and Duchess of Windsor; the Barbie logo on the vanity was Photoshopped out.
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DeFusco Industrial Supply was established in 1985 - before there was an internet!
We carry high quality brands at competitive prices, and if it has to do with masonry, tile, concrete or stone we have it, and know how to use it. That's a value you won't get from the big box and online stores!
Suction Cups For Granite T
WEHA Suction Assembly consists of 2 capped aluminum rails and 12 double suc- in cups. It supports and protects your kitchen and bathroom tops in transport, reducing the chance of breaking the top. Special aluminum profiles allow a safe placement of the suction cups, which are individually adjustable.
Weha Suction Cup Assembly: 2 7' Bars and 12 Custom Double Suction Cups for Transporting Finishing Granite and Stone Counter Tops
Weha Granite and Stone Counter Top Suction Cup Assembly consists of 2 capped aluminum rails and 12 double suction cups.
It supports and protects your Granite, marble, and stone kitchen and bathroom countertops in transport, reducing the chance of breaking the top.
Special aluminum profiles allow a safe placement of the suction cups, which are individually adjustable.
Each custom-made double suction cup has a special lever system underneath the handle that securely locks into the special made "lip" of the bar.
This allows each double suction cup to lock onto the bar for maximum support strength of each bar.
Additionally, you can move all cups on each bar at one time for faster transport and assembly.
The Weha Suction Cup Counter Top Support system is truly the best way to transport granite countertops into the home without breaking.
Description
Rail Length: 7'
Comes with 2-7 foot rails
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"Auto Museum Volkswagen - Germany - Wolfsburg"
_______________________________________
The Ford Model T (colloquially known as the Tin Lizzie, T‑Model Ford, Model T, T, Leaping Lena, or flivver) is an automobile that was produced by Ford Motor Company from October 1, 1908, to May 26, 1927. It is generally regarded as the first affordable automobile, the car that opened travel to the common middle-class American; some of this was because of Ford's efficient fabrication, including assembly line production instead of individual hand crafting.
The Ford Model T was named the most influential car of the 20th century in the 1999 Car of the Century competition, ahead of the BMC Mini, Citroën DS, and Volkswagen Type 1. With 16.5 million sold it stands eighth on the top ten list of most sold cars of all time as of 2012.
Although automobiles had already existed for decades, they were still mostly scarce and expensive at the Model T's introduction in 1908. Positioned as reliable, easily maintained mass market transportation, it was a runaway success. In a matter of days after the release, 15,000 orders were placed. The first production Model T was produced on August 12, 1908 and left the factory on September 27, 1908, at the Ford Piquette Avenue Plant in Detroit, Michigan. On May 26, 1927, Henry Ford watched the 15 millionth Model T Ford roll off the assembly line at his factory in Highland Park, Michigan.
There were several cars produced or prototyped by Henry Ford from the founding of the company in 1903 until the Model T was introduced. Although he started with the Model A, there were not 19 production models (A through T); some were only prototypes. The production model immediately before the Model T was the Model S, an upgraded version of the company's largest success to that point, the Model N. The follow-up was the Ford Model A (rather than any Model U). The company publicity said this was because the new car was such a departure from the old that Henry wanted to start all over again with the letter A.
The Model T was Ford's first automobile mass-produced on moving assembly lines with completely interchangeable parts, marketed to the middle class. Henry Ford said of the vehicle:
I will build a car for the great multitude. It will be large enough for the family, but small enough for the individual to run and care for. It will be constructed of the best materials, by the best men to be hired, after the simplest designs that modern engineering can devise. But it will be so low in price that no man making a good salary will be unable to own one – and enjoy with his family the blessing of hours of pleasure in God's great open spaces.
Although credit for the development of the assembly line belongs to Ransom E. Olds with the first mass-produced automobile, the Oldsmobile Curved Dash, beginning in 1901, the tremendous advancements in the efficiency of the system over the life of the Model T can be credited almost entirely to the vision of Ford and his engineers.
CHARACTERISTICS
The Model T was designed by Childe Harold Wills, and Hungarian immigrants Joseph A. Galamb and Eugene Farkas. Henry Love, C. J. Smith, Gus Degner and Peter E. Martin were also part of the team. Production of the Model T began in the third quarter of 1908. Collectors today sometimes classify Model Ts by build years and refer to these as "model years", thus labeling the first Model Ts as 1909 models. This is a retroactive classification scheme; the concept of model years as we conceive it today did not exist at the time. The nominal model designation was "Model T", although design revisions did occur during the car's two decades of production.
ENGINE
The Model T had a front-mounted 2.9 L inline four-cylinder engine, producing 20 hp (15 kW), for a top speed of 64–72 km/h. According to Ford Motor Company, the Model T had fuel economy on the order of 13–21 mpg-US (16–25 mpg-imp; 18–11 L/100 km). The engine was capable of running on gasoline, kerosene, or ethanol, although the decreasing cost of gasoline and the later introduction of Prohibition made ethanol an impractical fuel for most users.
The ignition system used an unusual trembler coil system to drive the spark plugs, as used for stationary gas engines, rather than the expensive magnetos that were used on other cars. This ignition also made the Model T more flexible as to the quality or type of fuel it used. The need for a starting battery and also Ford's use of an unusual AC alternator located inside the flywheel housing encouraged the adoption of electric lighting (standard fitment as of 1915), rather than oil or acetylene lamps, but it also delayed the adoption of electric starting, which was not offered until 1919.
TRANSMISSION AND DRIVE TRAIN
The Model T was a rear-wheel drive vehicle. Its transmission was a planetary gear type billed as "three speed". In today's terms it would be considered a two-speed, because one of the three speeds was reverse.
The Model T's transmission was controlled with three foot pedals and a lever that was mounted to the road side of the driver's seat. The throttle was controlled with a lever on the steering wheel. The left pedal was used to engage the gear. With the floor lever in either the mid position or fully forward and the pedal pressed and held forward the car entered low gear. When held in an intermediate position the car was in neutral. If the left pedal was released, the Model T entered high gear, but only when the lever was fully forward – in any other position the pedal would only move up as far as the central neutral position. This allowed the car to be held in neutral while the driver cranked the engine by hand. The car could thus cruise without the driver having to press any of the pedals. There was no separate clutch pedal.
When the car was in neutral, the middle pedal was used to engage reverse gear, and the right pedal operated the transmission brake – there were no separate brakes on the wheels. The floor lever also controlled the parking brake, which was activated by pulling the lever all the way back. This doubled as an emergency brake.
Although it was uncommon, the drive bands could fall out of adjustment, allowing the car to creep, particularly when cold, adding another hazard to attempting to start the car: a person cranking the engine could be forced backward while still holding the crank as the car crept forward, although it was nominally in neutral. As the car utilized a wet clutch, this condition could also occur in cold weather, when the thickened oil prevents the clutch discs from slipping freely. Power reached the differential through a single universal joint attached to a torque tube which drove the rear axle; some models (typically trucks, but available for cars as well) could be equipped with an optional two-speed Ruckstell rear axle shifted by a floor-mounted lever which provided an underdrive gear for easier hill climbing. All gears were vanadium steel running in an oil bath.
Transmission bands and linings
Two main types of band lining material were used:
Cotton – Cotton woven linings were the original type fitted and specified by Ford. Generally, the cotton lining is "kinder" to the drum surface, with damage to the drum caused only by the retaining rivets scoring the drum surface. Although this in itself did not pose a problem, a dragging band resulting from improper adjustment caused overheating transmission and engine, diminished power, and – in the case of cotton linings – rapid destruction of the band lining.
Wood – Wooden linings were originally offered as a "longer life" accessory part during the life of the Model T. They were a single piece of steam bent cottonwood[citation needed] fitted to the normal Model T transmission band. These bands give a very different feel to the pedals, with much more of a "bite" feel. The sensation is of a definite "grip" of the drum and seemed to noticeably increase the feel, in particular of the brake drum.
SUSPENSION AND WHEELS
Model T suspension employed a transversely mounted semi-elliptical spring for each of the front and rear beam axles which allowed a great deal of wheel movement to cope with the dirt roads of the time.
The front axle was drop forged as a single piece of vanadium steel. Ford twisted many axles through eight full rotations (2880 degrees) and sent them to dealers to be put on display to demonstrate its superiority. The Model T did not have a modern service brake. The right foot pedal applied a band around a drum in the transmission, thus stopping the rear wheels from turning. The previously mentioned parking brake lever operated band brakes acting on the inside of the rear brake drums, which were an integral part of the rear wheel hubs. Optional brakes that acted on the outside of the brake drums were available from aftermarket suppliers.
Wheels were wooden artillery wheels, with steel welded-spoke wheels available in 1926 and 1927.
Tires were pneumatic clincher type, 76 cm in diameter, 8.9 cm wide in the rear, 7.5 cm wide in the front. Clinchers needed much higher pressure than today's tires, typically 60 psi (410 kPa), to prevent them from leaving the rim at speed. Horseshoe nails on the roads, together with the high pressure, made flat tires a common problem.
Balloon tires became available in 1925. They were 53 cm × 11 cm all around. Balloon tires were closer in design to today's tires, with steel wires reinforcing the tire bead, making lower pressure possible – typically 35 psi (240 kPa) – giving a softer ride. The old nomenclature for tire size changed from measuring the outer diameter to measuring the rim diameter so 530 mm (rim diameter) × 110 mm (tire width) wheels has about the same outer diameter as 76 cm clincher tires. All tires in this time period used an inner tube to hold the pressurized air; "tubeless" tires were not generally in use until much later.
Wheelbase was 254 cm and standard tread width was 142 cm; 152 cm tread could be obtained on special order, "for Southern roads", identical to the pre-Civil War track gauge for many railroads in the former Confederacy.
COLORS
By 1918, half of all the cars in the US were Model Ts. However, it was a monolithic bloc; Ford wrote in his autobiography that in 1909 he told his management team that in the future “Any customer can have a car painted any color that he wants so long as it is black”.
However, in the first years of production from 1908 to 1913, the Model T was not available in black but rather only gray, green, blue, and red. Green was available for the touring cars, town cars, coupes, and Landaulets. Gray was only available for the town cars, and red only for the touring cars. By 1912, all cars were being painted midnight blue with black fenders. It was only in 1914 that the "any color so long as it is black" policy was finally implemented. It is often stated that Ford suggested the use of black from 1914 to 1926 due to the cheap cost and durability of black paint. During the lifetime production of the Model T, over 30 types of black paint were used on various parts of the car. These were formulated to satisfy the different means of applying the paint to the various parts, and had distinct drying times, depending on the part, paint, and method of drying.
BODY
Although Ford classified the Model T with a single letter designation throughout its entire life and made no distinction by model years, there were enough significant changes to the body over the production life that the car can be classified into five distinct generations. Among the most immediately visible and identifiable changes were in the hood and cowl areas, although many other modifications were made to the vehicle.
1909–1914 – T1 – Characterized by a nearly straight, five-sided hood, with a flat top containing a center hinge and two side sloping sections containing the folding hinges. The firewall was flat from the windshield down with no distinct cowl.
1915–1916 – T2 – The hood design was nearly the same five sided design with the only obvious change being the addition of louvers to the vertical sides. There was a significant change to the cowl area with the windshield relocated significantly behind the firewall and joined with a compound contoured cowl panel.
1917–1923 – T3 – The hood design was changed to a tapered design with a curved top. the folding hinges were now located at the joint between the flat sides and the curved top. This is sometime referred to as the low hood to distinguish if from the later hoods. The back edge of the hood now met the front edge of the cowl panel so that no part of the flat firewall was visible outside of the hood. This design was used the longest and during the highest production years accounting for about half of the total number of Model T's built.
1923–1925 – T4 – This change was made during the 1923 calendar year so models built earlier in the year have the older design while later vehicles have the newer design. The taper of the hood was increased and the rear section at the firewall is about an inch taller and several inches wider than the previous design. While this is a relatively minor change, the parts between the third and fourth generation are not interchangeable.
1926–1927 – T5 – This design change made the greatest difference in the appearance of the car. The hood was again enlarged with the cowl panel no longer a compound curve and blended much more with the line of the hood. The distance between the firewall and the windshield was also increased significantly. This style is sometimes referred to as the high hood.
The styling on the fifth generation was a preview for the following Model A but the two models are visually quite different as the body on the A was much wider and had curved doors as opposed to the flat doors on the T.
DIVERSE APPLICATIONS
When the Model T was designed and introduced, the infrastructure of the world was quite different from today's. Pavement was a rarity except for sidewalks and a few big-city streets. (The sense of the term "pavement" as equivalent with "sidewalk" comes from that era, when streets and roads were generally dirt and sidewalks were a paved way to walk along them.) Agriculture was the occupation of many people. Power tools were scarce outside factories, as were power sources for them; electrification, like pavement, was found usually only in larger towns. Rural electrification and motorized mechanization were embryonic in some regions and nonexistent in most. Henry Ford oversaw the requirements and design of the Model T based on contemporary realities. Consequently, the Model T was (intentionally) almost as much a tractor and portable engine as it was an automobile. It has always been well regarded for its all-terrain abilities and ruggedness. It could travel a rocky, muddy farm lane, cross a shallow stream, climb a steep hill, and be parked on the other side to have one of its wheels removed and a pulley fastened to the hub for a flat belt to drive a bucksaw, thresher, silo blower, conveyor for filling corn cribs or haylofts, baler, water pump, electrical generator, and many other applications. One unique application of the Model T was shown in the October 1922 issue of Fordson Farmer magazine. It showed a minister who had transformed his Model T into a mobile church, complete with small organ.
During this era, entire automobiles (including thousands of Model Ts) were even hacked apart by their owners and reconfigured into custom machinery permanently dedicated to a purpose, such as homemade tractors and ice saws,. Dozens of aftermarket companies sold prefab kits to facilitate the T's conversion from car to tractor. The Model T had been around for a decade before the Fordson tractor became available (1917–18), and many Ts had been converted for field use. (For example, Harry Ferguson, later famous for his hitches and tractors, worked on Eros Model T tractor conversions before he worked with Fordsons and others.) During the next decade, Model T tractor conversion kits were harder to sell, as the Fordson and then the Farmall (1924), as well as other light and affordable tractors, served the farm market. But during the Depression (1930s), Model T tractor conversion kits had a resurgence, because by then used Model Ts and junkyard parts for them were plentiful and cheap.
Like many popular car engines of the era, the Model T engine was also used on home-built aircraft (such as the Pietenpol Sky Scout) and motorboats.
An armored car variant (called the FT-B) was developed in Poland in 1920.
Many Model Ts were converted into vehicles which could travel across heavy snows with kits on the rear wheels (sometimes with an extra pair of rear-mounted wheels and two sets of continuous track to mount on the now-tandemed rear wheels, essentially making it a half-track) and skis replacing the front wheels. They were popular for rural mail delivery for a time. The common name for these conversions of cars and small trucks was "snowflyers". These vehicles were extremely popular in the northern reaches of Canada where factories were set up to produce them.
A number of companies built Model T–based railcars. In The Great Railway Bazaar, Paul Theroux mentions a rail journey in India on such a railcar. The New Zealand Railways Department's RM class included a few.
PRODUCTION
MASS PRODUCTION
The knowledge and skills needed by a factory worker were reduced to 84 areas. When introduced, the T used the building methods typical at the time, assembly by hand, and production was small. The Ford Piquette Avenue Plant could not keep up with demand for the Model T, and only 11 cars were built there during the first full month of production. More and more machines were used to reduce the complexity within the 84 defined areas. In 1910, after assembling nearly 12,000 Model Ts, Henry Ford moved the company to the new Highland Park complex.
As a result, Ford's cars came off the line in three-minute intervals, much faster than previous methods, reducing production time by a factor of eight (requiring 12.5 hours before, 93 minutes afterwards), while using less manpower. By 1914, the assembly process for the Model T had been so streamlined it took only 93 minutes to assemble a car. That year Ford produced more cars than all other automakers combined. The Model T was a great commercial success, and by the time Henry made his 10 millionth car, 50 percent of all cars in the world were Fords. It was so successful that Ford did not purchase any advertising between 1917 and 1923, instead it became so famous that people now considered it a norm; more than 15 million Model Ts were manufactured, reaching a rate of 9,000 to 10,000 cars a day in 1925, or 2 million annually, more than any other model of its day, at a price of just $260 (or about $3,240 in 2016 dollars). Model T production was finally surpassed by the Volkswagen Beetle on February 17, 1972.
Henry Ford's ideological approach to Model T design was one of getting it right and then keeping it the same; he believed the Model T was all the car a person would, or could, ever need. As other companies offered comfort and styling advantages, at competitive prices, the Model T lost market share. Design changes were not as few as the public perceived, but the idea of an unchanging model was kept intact. Eventually, on May 26, 1927, Ford Motor Company ceased US production and began the changeovers required to produce the Model A. Some of the other Model T factories in the world continued a short while.
Model T engines continued to be produced until August 4, 1941. Almost 170,000 were built after car production stopped, as replacement engines were required to service already produced vehicles. Racers and enthusiasts, forerunners of modern hot rodders, used the Model T's block to build popular and cheap racing engines, including Cragar, Navarro, and famously the Frontenacs ("Fronty Fords") of the Chevrolet brothers, among many others.
The Model T employed some advanced technology, for example, its use of vanadium steel alloy. Its durability was phenomenal, and many Model Ts and their parts remain in running order nearly a century later. Although Henry Ford resisted some kinds of change, he always championed the advancement of materials engineering, and often mechanical engineering and industrial engineering.
In 2002, Ford built a final batch of six Model Ts as part of their 2003 centenary celebrations. These cars were assembled from remaining new components and other parts produced from the original drawings. The last of the six was used for publicity purposes in the UK.
Although Ford no longer manufactures parts for the Model T, many parts are still manufactured through private companies as replicas to service the thousands of Model Ts still in operation today. On May 26, 1927 Henry Ford and his son Edsel, drove the 15 millionth Model T out of the factory. This marked the famous automobile's official last day of production at the main factory.
PRICE AND PRODUCTION
The assembly line system allowed Ford to sell his cars at a price lower than his competitors due to the efficiency of the system. As he continued to fine-tune the system, he was able to keep reducing his costs. As his volume increased, he was able to also lower the prices due to fixed costs being spread over a larger number of vehicles. Other factors affected the price such as material costs and design changes.
The figures below are US production numbers compiled by R.E. Houston, Ford Production Department, August 3, 1927. The figures between 1909 and 1920 are for Ford's fiscal year. From 1909 to 1913, the fiscal year was from October 1 to September 30 the following calendar year with the year number being the year it ended in. For the 1914 fiscal year, the year was October 1, 1913 through July 31, 1914. Starting in August 1914, and through the end of the Model T era, the fiscal year was August 1 through July 31. Beginning with January 1920 the figures are for the calendar year.
RECYCLING
Henry Ford used wood scraps from the production of Model Ts to make charcoal. Originally named Ford Charcoal, the name was changed to Kingsford Charcoal after Ford's brother-in-law E. G. Kingsford brokered the selection of the new charcoal plant site. Lumber for production of the Model T came from the same location, built in 1920 called the Ford Iron Mountain Plant, which incorporated a sawmill where lumber from Ford purchased land in the Upper Peninsula of Michigan was sent to the River Rouge Plant; scrap wood was then returned for charcoal production.
FIRST GLOBAL CAR
The Ford Model T was the first automobile built by various countries simultaneously since they were being produced in Walkerville, Canada and in Trafford Park, Greater Manchester, England starting in 1911 and were later assembled in Germany, Argentina, France, Spain, Denmark, Norway, Belgium, Brazil, Mexico, and Japan, as well as several locations throughout the US. Ford made use of the knock-down kit concept almost from the beginning of the company as freight and production costs from Detroit had Ford assembling vehicles in major metropolitan centers of the US.
The Aeroford was an English automobile manufactured in Bayswater, London, from 1920 to 1925. It was a Model T with distinct hood and grille to make it appear to be a totally different design, what later would have been called badge engineering. The Aeroford sold from £288 in 1920, dropping to £168-214 by 1925. It was available as a two-seater, four-seater, or coupé.
ADVERTISING AND MARKETING
Ford created a massive publicity machine in Detroit to ensure every newspaper carried stories and advertisements about the new product. Ford's network of local dealers made the car ubiquitous in virtually every city in North America. As independent dealers, the franchises grew rich and publicized not just the Ford but the very concept of automobiling; local motor clubs sprang up to help new drivers and to explore the countryside. Ford was always eager to sell to farmers, who looked on the vehicle as a commercial device to help their business. Sales skyrocketed – several years posted around 100 percent gains on the previous year.
CAR CLUBS
Cars built before 1919 are classed as veteran cars and later models as vintage cars. Today, four main clubs exist to support the preservation and restoration of these cars: the Model T Ford Club International, the Model T Ford Club of America[51] and the combined clubs of Australia. With many chapters of clubs around the world, the Model T Ford Club of Victoria[52] has a membership with a considerable number of uniquely Australian cars. (Australia produced its own car bodies, and therefore many differences occurred between the Australian bodied tourers and the US/Canadian cars.) In the UK, the Model T Ford Register of Great Britain celebrated its 50th anniversary in 2010. Many steel Model T parts are still manufactured today, and even fiberglass replicas of their distinctive bodies are produced, which are popular for T-bucket style hot rods (as immortalized in the Jan and Dean surf music song "Bucket T", which was later recorded by The Who). In 1949, more than twenty years after the end of production, 200,000 Model Ts were registered in the United States. In 2008, it was estimated that about 50,000 to 60,000 Ford Model Ts remain roadworthy.
WIKIPEDIA
The first of a development of one million exciting BREXIT inspired starter homes - on the foreshore at Lytham, Lancashire. Comprising of a deceptively spacious but compact living/sleeping room and benefitting from an airy al fresco dining area with fabulous [breathtaking] views - furnished with locally sourced materials competitively priced from £300,000. Poll Tax Band B and not subject to ULEZ . Viewing highly recommended
Progress shot of ‘Nicola’ two months after construction work started, 4 December 1967 (TWAM ref. DT.TUR/2/51926A). She was the first SD14 to be built by Austin & Pickersgill, at their Southwick yard, Sunderland.
This set celebrates the ‘Nicola’, the first in a long line of standard ships designed by the Sunderland shipyard of Austin & Pickersgill Ltd. The images document her construction from October 1967 through to her completion in February 1968. The shipbuilders commissioned the Newcastle-based firm Turners (Photography) Ltd to take weekly progress shots of the ‘Nicola’ and these images have given us a unique view of her development.
She was the first SD14 to be completed (the name stands for ‘Shelter Deck 14,000 tons deadweight’) and was designed as a replacement for the surviving ‘Liberty ships’, built by American yards during the Second World War. Those Liberty ships had played a vital role in the Allied victory but by the 1960s they were fast approaching the end of their working lives.
The SD14 developed by Austin & Pickersgill met the demand for economic and reliable cargo ships. The simplicity of the design meant that it could be marketed by the shipbuilders at a very competitive price. It’s success is reflected by the fact that over the course of 20 years 211 ships were built to the SD14 design by Austin Pickersgill and its licensees. Sunderland can be very proud of its remarkable shipbuilding and engineering history and the SD14 is one the City’s finest achievements.
(Copyright) We're happy for you to share these digital images within the spirit of The Commons. Please cite 'Tyne & Wear Archives & Museums' when reusing. Certain restrictions on high quality reproductions and commercial use of the original physical version apply though; if you're unsure please email archives@twmuseums.org.uk
"Auto Museum Volkswagen - Germany - Wolfsburg"
_______________________________________
The Ford Model T (colloquially known as the Tin Lizzie, T‑Model Ford, Model T, T, Leaping Lena, or flivver) is an automobile that was produced by Ford Motor Company from October 1, 1908, to May 26, 1927. It is generally regarded as the first affordable automobile, the car that opened travel to the common middle-class American; some of this was because of Ford's efficient fabrication, including assembly line production instead of individual hand crafting.
The Ford Model T was named the most influential car of the 20th century in the 1999 Car of the Century competition, ahead of the BMC Mini, Citroën DS, and Volkswagen Type 1. With 16.5 million sold it stands eighth on the top ten list of most sold cars of all time as of 2012.
Although automobiles had already existed for decades, they were still mostly scarce and expensive at the Model T's introduction in 1908. Positioned as reliable, easily maintained mass market transportation, it was a runaway success. In a matter of days after the release, 15,000 orders were placed. The first production Model T was produced on August 12, 1908 and left the factory on September 27, 1908, at the Ford Piquette Avenue Plant in Detroit, Michigan. On May 26, 1927, Henry Ford watched the 15 millionth Model T Ford roll off the assembly line at his factory in Highland Park, Michigan.
There were several cars produced or prototyped by Henry Ford from the founding of the company in 1903 until the Model T was introduced. Although he started with the Model A, there were not 19 production models (A through T); some were only prototypes. The production model immediately before the Model T was the Model S, an upgraded version of the company's largest success to that point, the Model N. The follow-up was the Ford Model A (rather than any Model U). The company publicity said this was because the new car was such a departure from the old that Henry wanted to start all over again with the letter A.
The Model T was Ford's first automobile mass-produced on moving assembly lines with completely interchangeable parts, marketed to the middle class. Henry Ford said of the vehicle:
I will build a car for the great multitude. It will be large enough for the family, but small enough for the individual to run and care for. It will be constructed of the best materials, by the best men to be hired, after the simplest designs that modern engineering can devise. But it will be so low in price that no man making a good salary will be unable to own one – and enjoy with his family the blessing of hours of pleasure in God's great open spaces.
Although credit for the development of the assembly line belongs to Ransom E. Olds with the first mass-produced automobile, the Oldsmobile Curved Dash, beginning in 1901, the tremendous advancements in the efficiency of the system over the life of the Model T can be credited almost entirely to the vision of Ford and his engineers.
CHARACTERISTICS
The Model T was designed by Childe Harold Wills, and Hungarian immigrants Joseph A. Galamb and Eugene Farkas. Henry Love, C. J. Smith, Gus Degner and Peter E. Martin were also part of the team. Production of the Model T began in the third quarter of 1908. Collectors today sometimes classify Model Ts by build years and refer to these as "model years", thus labeling the first Model Ts as 1909 models. This is a retroactive classification scheme; the concept of model years as we conceive it today did not exist at the time. The nominal model designation was "Model T", although design revisions did occur during the car's two decades of production.
ENGINE
The Model T had a front-mounted 2.9 L inline four-cylinder engine, producing 20 hp (15 kW), for a top speed of 64–72 km/h. According to Ford Motor Company, the Model T had fuel economy on the order of 13–21 mpg-US (16–25 mpg-imp; 18–11 L/100 km). The engine was capable of running on gasoline, kerosene, or ethanol, although the decreasing cost of gasoline and the later introduction of Prohibition made ethanol an impractical fuel for most users.
The ignition system used an unusual trembler coil system to drive the spark plugs, as used for stationary gas engines, rather than the expensive magnetos that were used on other cars. This ignition also made the Model T more flexible as to the quality or type of fuel it used. The need for a starting battery and also Ford's use of an unusual AC alternator located inside the flywheel housing encouraged the adoption of electric lighting (standard fitment as of 1915), rather than oil or acetylene lamps, but it also delayed the adoption of electric starting, which was not offered until 1919.
TRANSMISSION AND DRIVE TRAIN
The Model T was a rear-wheel drive vehicle. Its transmission was a planetary gear type billed as "three speed". In today's terms it would be considered a two-speed, because one of the three speeds was reverse.
The Model T's transmission was controlled with three foot pedals and a lever that was mounted to the road side of the driver's seat. The throttle was controlled with a lever on the steering wheel. The left pedal was used to engage the gear. With the floor lever in either the mid position or fully forward and the pedal pressed and held forward the car entered low gear. When held in an intermediate position the car was in neutral. If the left pedal was released, the Model T entered high gear, but only when the lever was fully forward – in any other position the pedal would only move up as far as the central neutral position. This allowed the car to be held in neutral while the driver cranked the engine by hand. The car could thus cruise without the driver having to press any of the pedals. There was no separate clutch pedal.
When the car was in neutral, the middle pedal was used to engage reverse gear, and the right pedal operated the transmission brake – there were no separate brakes on the wheels. The floor lever also controlled the parking brake, which was activated by pulling the lever all the way back. This doubled as an emergency brake.
Although it was uncommon, the drive bands could fall out of adjustment, allowing the car to creep, particularly when cold, adding another hazard to attempting to start the car: a person cranking the engine could be forced backward while still holding the crank as the car crept forward, although it was nominally in neutral. As the car utilized a wet clutch, this condition could also occur in cold weather, when the thickened oil prevents the clutch discs from slipping freely. Power reached the differential through a single universal joint attached to a torque tube which drove the rear axle; some models (typically trucks, but available for cars as well) could be equipped with an optional two-speed Ruckstell rear axle shifted by a floor-mounted lever which provided an underdrive gear for easier hill climbing. All gears were vanadium steel running in an oil bath.
Transmission bands and linings
Two main types of band lining material were used:
Cotton – Cotton woven linings were the original type fitted and specified by Ford. Generally, the cotton lining is "kinder" to the drum surface, with damage to the drum caused only by the retaining rivets scoring the drum surface. Although this in itself did not pose a problem, a dragging band resulting from improper adjustment caused overheating transmission and engine, diminished power, and – in the case of cotton linings – rapid destruction of the band lining.
Wood – Wooden linings were originally offered as a "longer life" accessory part during the life of the Model T. They were a single piece of steam bent cottonwood[citation needed] fitted to the normal Model T transmission band. These bands give a very different feel to the pedals, with much more of a "bite" feel. The sensation is of a definite "grip" of the drum and seemed to noticeably increase the feel, in particular of the brake drum.
SUSPENSION AND WHEELS
Model T suspension employed a transversely mounted semi-elliptical spring for each of the front and rear beam axles which allowed a great deal of wheel movement to cope with the dirt roads of the time.
The front axle was drop forged as a single piece of vanadium steel. Ford twisted many axles through eight full rotations (2880 degrees) and sent them to dealers to be put on display to demonstrate its superiority. The Model T did not have a modern service brake. The right foot pedal applied a band around a drum in the transmission, thus stopping the rear wheels from turning. The previously mentioned parking brake lever operated band brakes acting on the inside of the rear brake drums, which were an integral part of the rear wheel hubs. Optional brakes that acted on the outside of the brake drums were available from aftermarket suppliers.
Wheels were wooden artillery wheels, with steel welded-spoke wheels available in 1926 and 1927.
Tires were pneumatic clincher type, 76 cm in diameter, 8.9 cm wide in the rear, 7.5 cm wide in the front. Clinchers needed much higher pressure than today's tires, typically 60 psi (410 kPa), to prevent them from leaving the rim at speed. Horseshoe nails on the roads, together with the high pressure, made flat tires a common problem.
Balloon tires became available in 1925. They were 53 cm × 11 cm all around. Balloon tires were closer in design to today's tires, with steel wires reinforcing the tire bead, making lower pressure possible – typically 35 psi (240 kPa) – giving a softer ride. The old nomenclature for tire size changed from measuring the outer diameter to measuring the rim diameter so 530 mm (rim diameter) × 110 mm (tire width) wheels has about the same outer diameter as 76 cm clincher tires. All tires in this time period used an inner tube to hold the pressurized air; "tubeless" tires were not generally in use until much later.
Wheelbase was 254 cm and standard tread width was 142 cm; 152 cm tread could be obtained on special order, "for Southern roads", identical to the pre-Civil War track gauge for many railroads in the former Confederacy.
COLORS
By 1918, half of all the cars in the US were Model Ts. However, it was a monolithic bloc; Ford wrote in his autobiography that in 1909 he told his management team that in the future “Any customer can have a car painted any color that he wants so long as it is black”.
However, in the first years of production from 1908 to 1913, the Model T was not available in black but rather only gray, green, blue, and red. Green was available for the touring cars, town cars, coupes, and Landaulets. Gray was only available for the town cars, and red only for the touring cars. By 1912, all cars were being painted midnight blue with black fenders. It was only in 1914 that the "any color so long as it is black" policy was finally implemented. It is often stated that Ford suggested the use of black from 1914 to 1926 due to the cheap cost and durability of black paint. During the lifetime production of the Model T, over 30 types of black paint were used on various parts of the car. These were formulated to satisfy the different means of applying the paint to the various parts, and had distinct drying times, depending on the part, paint, and method of drying.
BODY
Although Ford classified the Model T with a single letter designation throughout its entire life and made no distinction by model years, there were enough significant changes to the body over the production life that the car can be classified into five distinct generations. Among the most immediately visible and identifiable changes were in the hood and cowl areas, although many other modifications were made to the vehicle.
1909–1914 – T1 – Characterized by a nearly straight, five-sided hood, with a flat top containing a center hinge and two side sloping sections containing the folding hinges. The firewall was flat from the windshield down with no distinct cowl.
1915–1916 – T2 – The hood design was nearly the same five sided design with the only obvious change being the addition of louvers to the vertical sides. There was a significant change to the cowl area with the windshield relocated significantly behind the firewall and joined with a compound contoured cowl panel.
1917–1923 – T3 – The hood design was changed to a tapered design with a curved top. the folding hinges were now located at the joint between the flat sides and the curved top. This is sometime referred to as the low hood to distinguish if from the later hoods. The back edge of the hood now met the front edge of the cowl panel so that no part of the flat firewall was visible outside of the hood. This design was used the longest and during the highest production years accounting for about half of the total number of Model T's built.
1923–1925 – T4 – This change was made during the 1923 calendar year so models built earlier in the year have the older design while later vehicles have the newer design. The taper of the hood was increased and the rear section at the firewall is about an inch taller and several inches wider than the previous design. While this is a relatively minor change, the parts between the third and fourth generation are not interchangeable.
1926–1927 – T5 – This design change made the greatest difference in the appearance of the car. The hood was again enlarged with the cowl panel no longer a compound curve and blended much more with the line of the hood. The distance between the firewall and the windshield was also increased significantly. This style is sometimes referred to as the high hood.
The styling on the fifth generation was a preview for the following Model A but the two models are visually quite different as the body on the A was much wider and had curved doors as opposed to the flat doors on the T.
DIVERSE APPLICATIONS
When the Model T was designed and introduced, the infrastructure of the world was quite different from today's. Pavement was a rarity except for sidewalks and a few big-city streets. (The sense of the term "pavement" as equivalent with "sidewalk" comes from that era, when streets and roads were generally dirt and sidewalks were a paved way to walk along them.) Agriculture was the occupation of many people. Power tools were scarce outside factories, as were power sources for them; electrification, like pavement, was found usually only in larger towns. Rural electrification and motorized mechanization were embryonic in some regions and nonexistent in most. Henry Ford oversaw the requirements and design of the Model T based on contemporary realities. Consequently, the Model T was (intentionally) almost as much a tractor and portable engine as it was an automobile. It has always been well regarded for its all-terrain abilities and ruggedness. It could travel a rocky, muddy farm lane, cross a shallow stream, climb a steep hill, and be parked on the other side to have one of its wheels removed and a pulley fastened to the hub for a flat belt to drive a bucksaw, thresher, silo blower, conveyor for filling corn cribs or haylofts, baler, water pump, electrical generator, and many other applications. One unique application of the Model T was shown in the October 1922 issue of Fordson Farmer magazine. It showed a minister who had transformed his Model T into a mobile church, complete with small organ.
During this era, entire automobiles (including thousands of Model Ts) were even hacked apart by their owners and reconfigured into custom machinery permanently dedicated to a purpose, such as homemade tractors and ice saws,. Dozens of aftermarket companies sold prefab kits to facilitate the T's conversion from car to tractor. The Model T had been around for a decade before the Fordson tractor became available (1917–18), and many Ts had been converted for field use. (For example, Harry Ferguson, later famous for his hitches and tractors, worked on Eros Model T tractor conversions before he worked with Fordsons and others.) During the next decade, Model T tractor conversion kits were harder to sell, as the Fordson and then the Farmall (1924), as well as other light and affordable tractors, served the farm market. But during the Depression (1930s), Model T tractor conversion kits had a resurgence, because by then used Model Ts and junkyard parts for them were plentiful and cheap.
Like many popular car engines of the era, the Model T engine was also used on home-built aircraft (such as the Pietenpol Sky Scout) and motorboats.
An armored car variant (called the FT-B) was developed in Poland in 1920.
Many Model Ts were converted into vehicles which could travel across heavy snows with kits on the rear wheels (sometimes with an extra pair of rear-mounted wheels and two sets of continuous track to mount on the now-tandemed rear wheels, essentially making it a half-track) and skis replacing the front wheels. They were popular for rural mail delivery for a time. The common name for these conversions of cars and small trucks was "snowflyers". These vehicles were extremely popular in the northern reaches of Canada where factories were set up to produce them.
A number of companies built Model T–based railcars. In The Great Railway Bazaar, Paul Theroux mentions a rail journey in India on such a railcar. The New Zealand Railways Department's RM class included a few.
PRODUCTION
MASS PRODUCTION
The knowledge and skills needed by a factory worker were reduced to 84 areas. When introduced, the T used the building methods typical at the time, assembly by hand, and production was small. The Ford Piquette Avenue Plant could not keep up with demand for the Model T, and only 11 cars were built there during the first full month of production. More and more machines were used to reduce the complexity within the 84 defined areas. In 1910, after assembling nearly 12,000 Model Ts, Henry Ford moved the company to the new Highland Park complex.
As a result, Ford's cars came off the line in three-minute intervals, much faster than previous methods, reducing production time by a factor of eight (requiring 12.5 hours before, 93 minutes afterwards), while using less manpower. By 1914, the assembly process for the Model T had been so streamlined it took only 93 minutes to assemble a car. That year Ford produced more cars than all other automakers combined. The Model T was a great commercial success, and by the time Henry made his 10 millionth car, 50 percent of all cars in the world were Fords. It was so successful that Ford did not purchase any advertising between 1917 and 1923, instead it became so famous that people now considered it a norm; more than 15 million Model Ts were manufactured, reaching a rate of 9,000 to 10,000 cars a day in 1925, or 2 million annually, more than any other model of its day, at a price of just $260 (or about $3,240 in 2016 dollars). Model T production was finally surpassed by the Volkswagen Beetle on February 17, 1972.
Henry Ford's ideological approach to Model T design was one of getting it right and then keeping it the same; he believed the Model T was all the car a person would, or could, ever need. As other companies offered comfort and styling advantages, at competitive prices, the Model T lost market share. Design changes were not as few as the public perceived, but the idea of an unchanging model was kept intact. Eventually, on May 26, 1927, Ford Motor Company ceased US production and began the changeovers required to produce the Model A. Some of the other Model T factories in the world continued a short while.
Model T engines continued to be produced until August 4, 1941. Almost 170,000 were built after car production stopped, as replacement engines were required to service already produced vehicles. Racers and enthusiasts, forerunners of modern hot rodders, used the Model T's block to build popular and cheap racing engines, including Cragar, Navarro, and famously the Frontenacs ("Fronty Fords") of the Chevrolet brothers, among many others.
The Model T employed some advanced technology, for example, its use of vanadium steel alloy. Its durability was phenomenal, and many Model Ts and their parts remain in running order nearly a century later. Although Henry Ford resisted some kinds of change, he always championed the advancement of materials engineering, and often mechanical engineering and industrial engineering.
In 2002, Ford built a final batch of six Model Ts as part of their 2003 centenary celebrations. These cars were assembled from remaining new components and other parts produced from the original drawings. The last of the six was used for publicity purposes in the UK.
Although Ford no longer manufactures parts for the Model T, many parts are still manufactured through private companies as replicas to service the thousands of Model Ts still in operation today. On May 26, 1927 Henry Ford and his son Edsel, drove the 15 millionth Model T out of the factory. This marked the famous automobile's official last day of production at the main factory.
PRICE AND PRODUCTION
The assembly line system allowed Ford to sell his cars at a price lower than his competitors due to the efficiency of the system. As he continued to fine-tune the system, he was able to keep reducing his costs. As his volume increased, he was able to also lower the prices due to fixed costs being spread over a larger number of vehicles. Other factors affected the price such as material costs and design changes.
The figures below are US production numbers compiled by R.E. Houston, Ford Production Department, August 3, 1927. The figures between 1909 and 1920 are for Ford's fiscal year. From 1909 to 1913, the fiscal year was from October 1 to September 30 the following calendar year with the year number being the year it ended in. For the 1914 fiscal year, the year was October 1, 1913 through July 31, 1914. Starting in August 1914, and through the end of the Model T era, the fiscal year was August 1 through July 31. Beginning with January 1920 the figures are for the calendar year.
RECYCLING
Henry Ford used wood scraps from the production of Model Ts to make charcoal. Originally named Ford Charcoal, the name was changed to Kingsford Charcoal after Ford's brother-in-law E. G. Kingsford brokered the selection of the new charcoal plant site. Lumber for production of the Model T came from the same location, built in 1920 called the Ford Iron Mountain Plant, which incorporated a sawmill where lumber from Ford purchased land in the Upper Peninsula of Michigan was sent to the River Rouge Plant; scrap wood was then returned for charcoal production.
FIRST GLOBAL CAR
The Ford Model T was the first automobile built by various countries simultaneously since they were being produced in Walkerville, Canada and in Trafford Park, Greater Manchester, England starting in 1911 and were later assembled in Germany, Argentina, France, Spain, Denmark, Norway, Belgium, Brazil, Mexico, and Japan, as well as several locations throughout the US. Ford made use of the knock-down kit concept almost from the beginning of the company as freight and production costs from Detroit had Ford assembling vehicles in major metropolitan centers of the US.
The Aeroford was an English automobile manufactured in Bayswater, London, from 1920 to 1925. It was a Model T with distinct hood and grille to make it appear to be a totally different design, what later would have been called badge engineering. The Aeroford sold from £288 in 1920, dropping to £168-214 by 1925. It was available as a two-seater, four-seater, or coupé.
ADVERTISING AND MARKETING
Ford created a massive publicity machine in Detroit to ensure every newspaper carried stories and advertisements about the new product. Ford's network of local dealers made the car ubiquitous in virtually every city in North America. As independent dealers, the franchises grew rich and publicized not just the Ford but the very concept of automobiling; local motor clubs sprang up to help new drivers and to explore the countryside. Ford was always eager to sell to farmers, who looked on the vehicle as a commercial device to help their business. Sales skyrocketed – several years posted around 100 percent gains on the previous year.
CAR CLUBS
Cars built before 1919 are classed as veteran cars and later models as vintage cars. Today, four main clubs exist to support the preservation and restoration of these cars: the Model T Ford Club International, the Model T Ford Club of America[51] and the combined clubs of Australia. With many chapters of clubs around the world, the Model T Ford Club of Victoria[52] has a membership with a considerable number of uniquely Australian cars. (Australia produced its own car bodies, and therefore many differences occurred between the Australian bodied tourers and the US/Canadian cars.) In the UK, the Model T Ford Register of Great Britain celebrated its 50th anniversary in 2010. Many steel Model T parts are still manufactured today, and even fiberglass replicas of their distinctive bodies are produced, which are popular for T-bucket style hot rods (as immortalized in the Jan and Dean surf music song "Bucket T", which was later recorded by The Who). In 1949, more than twenty years after the end of production, 200,000 Model Ts were registered in the United States. In 2008, it was estimated that about 50,000 to 60,000 Ford Model Ts remain roadworthy.
WIKIPEDIA
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