Here are images from my recent visit to the Cambo (www.cambo.com) factory in the Netherlands while I was visiting Amsterdam. Rene Rook of Cambo was nice enough to guide me through the entire production process as well as show me some vintage cameras from the companies history and show me their current product line (which was just recently updated at Photokina 2012)

for a full review of the products and a discussion of the images you see here (especially the vintage products) you can read the full article on my website www.brianhirschfeldphotography.com

Coconut candy refer to various candies made with coconut or coconut flavorings.

In Vietnamese cuisine, kẹo dừa coconut candy is most commonly produced in Bến Tre province, Vietnam with coconut milk and coconut cream.

In the United States, coconut candy was sometimes spelled as cocoanut candy. These included various traditional confections in the United States. Mason Pecan Cocoanut Candy was made in the 1950s in Milprint, Milwaukee. Squirrel Brand made Cocoanut Zippers. There was also a Mason Cherry Cocoanut candy produced in Mineola, New York. Welch's made Cocoanut Candy Bar from Hinde & Dauch. Welch's Cocoanut candy was also produced by the James O. Welch Company.

Sauerkraut candy is made with grated coconut. Grated coconut is often used in various chocolate confections.

VIETNAM

The Bến Tre Province is nicknamed by Vietnamese as the "Land of Coconut" (Xu Dua). The Vietnamese term for coconut candy is "kẹo dừa", with kẹo = candy and dừa = coconut. Coconut candy was originally associated with Mỏ Cày, a small township within the Bến Tre province.

MANUFACTURING PROCESS

The production of Vietnamese coconut candy starts with the grating of fresh coconut flesh. The grated flesh is then pressed to extract coconut milk and coconut cream. The next step is the addition of malt syrup and sugar to this mixture of coconut milk and cream. The ratio of the various ingredients is a closely guarded secret of individual coconut candy manufacturers. The mixing process is often entrusted only to family members of the factory owner. Slight variations in the ingredient ratios can lead to very different texture and taste in the final product.

The mixture is then heated to a very high temperature in large woks over fires generated by the burning of coconut shells. While being heated, the mixture is stirred continuously to ensure even heat distribution. Traditionally, this stirring process was done manually with large wooden paddles. In larger modern manufacturing facilities, these paddles have been replaced by electric motors. The mixture eventually caramelises to a thicker texture. Recognising when the mixture has been cooked to the right level is more of an art than an exact science. While it is still hot and soft, the thickened mixture is then stringed out into moulds and allowed to cool. The final step sees the candy strings cut into rectangular lozenges, then wrapped and packaged.

Traditionally, coconut candy is wrapped in two layers of wrappings. The inner layer is edible rice paper, and the outer layer is paper soaked in vegetable oil. These measures were necessary to stop the candy from sticking to the paper wrapping. Larger manufacturers now use heat-sealed foil paper, which does not stick to the candy.

ECONOMIC IMPORTANCE

Bến Tre currently has over one hundred coconut candy manufacturers, making up thirty percent of local enterprises. However, the market is dominated by a handful of well-known brands, with most manufacturers producing candy under licence for these brands. Coconut candy is sold throughout Vietnam. It is also exported to other Asian countries, Australia, Europe, and North America.

COCONUT CANDY TYPES

Bounty (chocolate bar) contains coconut (it is known as Bounty outside of the U.S.)

Coconut ice

Ferrero Raffaello

Perle de coco

Ounhmangu

WIKIPEDIA

This engineered solution by Handling Specialty was designed and manufactured to handle aircraft wings during the manufacturing process.

For more information about Handling Specialty engineered solutions please visit www.handling.com

The company was founded by John Dyson who began mining clay and making bricks in the early 1800s. From the very beginning the business was a success. The 1834 Sheffield trade directory lists - “John Dyson - Brick Maker, Stannington” which indicates that he ran the business on his own. However, by 1838 the business was listed as “John Dyson and Son - Black clay miners and firebrick manufacturers, Griffs House, Stannington.

Dyson's were manufacturers of Refractory material, ceramics for the steel industry, they also produce fire backs and other household ceramic bricks for the likes of Aga's etc. They have also been know to sell clay for use in Well Dressings.

Unfortunately Dyson's traditional manufacturing process relied heavily on gas fired kilns. With increased in energy costs the plants was no longer economically viable, despite the very best efforts of the management and staff alike the site closed around 2005.

The high performance niche products in Dyson's range are still available and are the cornerstone in Dyson's progression. The company have a wholly owned manufacturing facility in Tianjin, PRC which produces is high quality products.

Minton Tiles

The richly patterned and colored Minton tile floors are one of the most striking features of the extensions of the United States Capitol. They were first installed in 1856, when Thomas U. Walter was engaged in the design and construction of vast additions to the Capitol (1851-1865). For the floors in his extensions, Walter chose encaustic tile for its beauty, durability and sophistication.

•Artist: Minton, Hollins and Company

•Date: Installed in 1856

One striking example of the contrast between the interiors of the Old Capitol (finished in 1826) and the extensions (begun in 1851) may be seen in the differences in flooring materials. In the Old Capitol, stone pavers were used in corridors and other public spaces, such as the Rotunda and Crypt, while brick was used to floor committee rooms and offices. These materials, although durable and fireproof, would have looked plain and old-fashioned to the Victorian eye. In the mid-19th century, encaustic tile flooring was considered the most suitable and beautiful material for high-traffic areas. Unlike ordinary glazed tile, the pattern in encaustic tile is made of colored clays inlaid or imbedded in the clay ground. Because the color is part of the fabric of the encaustic tile, it will retain its beauty after years of wear. One observer noted:

“The indestructibility of tiles may be judged from the fact that the excavations at Pompeii have unearthed apartments where painted tiles are just as beautiful, the colors as fresh and bright as... when the fated city was in all its glory.”

Two types of tile were used at the U.S. Capitol: plain and inlaid encaustic tiles in a range of colors. Plain tiles were used as borders for the elaborate inlaid designs or to pave large corridor areas. They were available in seven colors: buff, red, black, drab, chocolate, light blue and white. Additional colors, such as cobalt blue, blue-gray, and light and dark green, appear in the inlaid encaustic tiles that form the elaborate centerpieces and architectural borders. They were made by “filling indentations in the unburnt tile with the desired colors and burning the whole together.”

The patterns and designs formed in the inlaid tiles were limited only by taste and imagination. They include geometric patterns such as the Greek key, guilloche, and basket weave; floral designs such as the fleur-de-lis; and figures such as dolphins and classical heads. Few of the patterns are repeated. Although most of the tiles are six-by-six-inch squares, some are round, triangular or pie-shaped. Approximately 1,000 different tile patterns are used in the corridors of the Capitol alone, and up to 100 different tiles may be needed to create a single design.

The original encaustic tiles in the Capitol extensions were manufactured at Stoke-upon-Trent in Staffordshire, England, by Minton, Hollins and Company. The firm’s patented tiles had won numerous gold medals at international exhibitions and were considered the best tiles made. In 1876, having seen Minton’s large display at the Centennial Exhibition in Philadelphia, one critic wrote, “Messr. Minton shone superior to all exhibits of the sort… and may be cited as showing the highest results in tile-pottery achieved by modern skill and research.”

Beginning in 1856, and continuing for five years, the tile was installed by the import firm of Miller and Coates of New York City. For the journey from New York to Washington, the tiles were packed in wooden casks weighing about 1100 pounds; each cask contained enough tiles to pave about 100 square feet. The cost of the tile ranged from $0.68 to $2.03 per square foot.

Thomas U. Walter had every reason to believe that the encaustic tile floors would last as long as his extensions stood. One visitor noted in 1859 that the tile floors vied with the beauty of marble and surpassed it in durability. While perhaps valid for other installations, however, this prediction proved overly optimistic for the Capitol Building. By 1924, the Minton tile was removed from the corridors in the first and second floors of the House Wing and replaced by “marble tile in patterns of a simple order.” In that day, marble was selected for its superior durability and because suitable replacement tile was difficult to find.

In the 1970s, however, a similar condition prompted a very different response. In 1972, a search was undertaken to determine a source of similar tiles in order to restore the original appearance of the building. Inquiries were made of all major American tile manufacturers, the American Ceramic Tile Manufacturers Association, and even Mexican and Spanish tile suppliers. Although the colors and designs could be reproduced relatively easily, the patterns would quickly wear because they would be applied to the surface. The “inlaid” feature of the encaustic tiles, i.e., the approximately 1/8-inch thickness of the pattern and color, is the characteristic that enables the Minton tiles to be walked upon for over 100 years without signs of wear. It was this technique that formed the basic difficulty of manufacture.

Finally, as a result of the Capitol’s needs becoming generally known, the Architect of the Capitol was placed in contact with H & R Johnson Tiles Ltd., located at Stoke-on-Trent, England. It was discovered that that firm was a successor company to the Minton Tile Co. and had even retained many of the original hand tools and forms in a private museum at the company’s manufacturing site.

Contact was then made with Mr. James Ellis, the Directing Architect of Ancient Monuments and Historic Buildings for the Crown. He had been trying for many years to establish a program for the replacement of the worn Minton tiles at the Houses of Parliament but had more or less given up the attempt because of H & R Johnson’s continued unwillingness to revive the encaustic tile process. However, the restoration work at the Arts and Industries Building of the Smithsonian Institution was in process at about the time the needs of the Capitol became known; it thus appeared that a market for such tiles was developing to the degree that the manufacturer began to reconsider its prior position. The company thus began the experiments that finally led to the present availability, after many decades, of the original Minton-type tiles.

Because the tiles in the Capitol are more decorative and have more complicated designs and color combinations than those in either the Houses of Parliament or the Smithsonian, those institutions were able to obtain replacement tiles sooner than the Capitol. The lessons learned in the manufacture of the simpler tiles served as a basis for filling the later needs.

Color photographs and full-sized drawings of the many required patterns were made and recorded, and many developmental submissions were made as the hand-made manufacturing process was re-developed. Finally, in 1986, the first acceptable tiles were delivered. The installation process was accomplished with modern cement adhesives and has yielded excellent results.

The program enabled the original tiles to be replaced with exact replicas. This project began on the first floor of the Senate wing, where the effects of 130 years of wear and tear were most noticeable. Replacement tile was closely scrutinized to ensure fidelity to the nineteenth-century originals. While difficult and slow, this process is the only fitting response to the history of the Capitol extensions, not only to restore the original beauty and elegance of these unique floors, but also to provide for their continuing attractiveness for the foreseeable future.

Height 8.9 cm. Extreme Diameter 11.5 cm. Base diameter 5.4 cm.

This artefact is carefully crafted and decorated using a fine silver thread. The manufacturing process is very traditional and conservative in style. This cup is used for drinking tea and is usually shown in the Qing dynasty emperor's palace. To have a matching lid for the cup is very rare.

Dongjin is one of the most professional valve regulated lead acid battery suppliers. Valve-regulated lead-acid battery (VRLA battery) is also called sealed lead-acid (SLA) or maintenance free battery. There are 2 types of VRLA batteries from Dongjin Group: absorbent glass mat (AGM) and gel cell. The gel batteries and AGM batteries of VRLA can be mounted in any orientation, and do not require constant maintenance. A VRLA battery utilizes a one-way, pressure-relief valve system to achieve a "recombination" technology.

Deep Cycle, Deep Discharge Applications

Marine TrollingElectronicsSailboatsElectric VehiclesWheelchairs/ScootersGolf CarsPortable PowerFloor ScrubbersPersonnel CarriersRenewable Energy(Solar, Wind)Village PowerCommercial Deep Cycle ApplicationsMarine & RV House PowerStandby and Emergency Backup Applications

UPSCable TVEmergency LightingComputer BackupRenewable EnergyFrequency RegulationTelephone SwitchingOther Applications

Race or High Performance CarsOn-Highway TruckingOff-Road VehiclesWet EnvironmentsMarine & RV StartingDiesel StartingVehicles with Start-Stop Systems

RLA batteries are rechargeable batteries based on AGM (Liquid Absorbing Glass Fiber Board) technology and calcium grid plates. They have superior high-current discharge characteristics and long service life. Because the VRLA battery is fully sealed, it will not leak acid, and during charging and discharging, it will not emit acid mist like old-fashioned lead-acid batteries to corrode equipment and pollute the environment. It does not need to add water in use.

VRLA batteries are widely used and can be used in power tools, emergency lights, UPS, electric wheelchairs, computers and communication channel equipment.

Our development team combines the market's demand with design optimization, precision component selection, and state-of-the-art manufacturing process to produce the most cost-effective battery solution for today's various energy-related systems. Dongjin VRLA (Gel and AGM) products have the reputation of being the high-quality VRLA batteries.

www.dongjin-battery.com/dongjin-battery/vrla-battery/

(En) Founded in 1906, the Coking Plant of Anderlues was specialized in the production of coke for industrial use.

Coke was obtained by distillation of coal in furnaces and, thanks to its superior fuel coal properties, it was used afterwards to feed the blast furnaces in the steel manufacturing process.

Closed and abandoned since 2002, the site has since undergone many losses and damages, not including an important pollution. While some buildings have now been demolished, there are however still some important parts of the former coking plant.

Among them, the former coal tower, next to the imposing "battery" of 38 furnaces, where the coke was produced. Besides them, we still can see the administrative buildings, the power station with its cooling tower, and buildings for the by-products, which were obtained by recovering the tar and coal gas. There are also a gasometer north side, the coal tip east side and a settling basin south side.

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(Fr) Fondées en 1906, les Cokeries d'Anderlues étaient spécialisées dans la fabrication de coke à usage industriel.

Le coke était obtenu par distillation de la houille dans des fours et, grâce à ses propriétés combustibles supérieures au charbon, il servait par après à alimenter les hauts-fourneaux dans le processus de fabrication de l'acier.

Fermé et laissé à l'abandon depuis 2002, le site a depuis lors subi de nombreuses pertes et dégradations, sans compter la pollution qui y règne. Si certains bâtiments (comme l'ancien lavoir à charbon) ont aujourd'hui été démolis, on retrouve encore toutefois certaines parties importantes de cette ancienne cokerie.

Parmi celles-ci, l'ancienne tour à charbon suivie de près par l'imposante "batterie" de 38 fours, où était produit le coke. A côté d'eux, on découvre également les bâtiments administratifs, la centrale électrique avec sa tour de refroidissement, ainsi que les bâtiments des sous-produits, lesquels étaient obtenus par récupération du goudron et du gaz de houille. Et en périphérie, on retrouve un gazomètre côté nord, le terril à l'est et un bassin de décantation côté sud.

Asian engineer and worker setting machine for process metal job, this immage can use for job, working, man, factory, maintenance, engineering factory and manufacturing process

Clay model for the Ferrari J50, 2015

Ferrari: Under the Skin (November 2017 to April 2018)

In an Italy ravaged by the Second World War, Enzo Ferrari and a small team decided to create the perfect racing machine. The exhibition will explore Ferrari’s powerful personality, the design and manufacturing process, the famous clientele and the future of the luxury car brand.

From the very first Ferrari to Michael Schumacher’s winning Formula One car and the newest hybrid model, the exhibition features rare cars and memorabilia displayed in public for the first time. Discover the Ferrari experience through original hand-drawn sketches, sculpture-like models and engines, alongside films and interviews telling one of the great design stories of all time.

[Design Museum]

In the Design Museum

Other companies began to be involved in the project, using the advanced manufacturing process known as RP (Rapid Prototyping). This involves turning the scanned data into .stl (stereo-lithography) files. Then the computer model is sliced into 0.1mm layers and manufacture is from the bottom up. So if the machine was starting from the base of a standing figure then it would begin by cutting the feet, then ankles, then knees etc. Each layer is only a tenth of a millimeter thick so it would take 500 layers to make a foot.

The Rear Leg was made by The Innovative Manufacturing Centre and UMAK Limited. And the process that they used is called LOM - Laminated Object Manufacture. Here a laser cuts the contour of an object on a 0.1mm layer of paper then another layer is laid down and next contour of the object is cut. The part is then broken out from the cut layers.

The final section was about 100 x 40 x 50 centimetres and was made by glueing together 5 LOM parts then inserting steel rods down the leg to ensure that the parts do not separate. The parts were treated so that they are stable in a range of temperatures and humidities. This is so that the layers do not delaminate. Steve Upcraft (IMC), Simon Graham (Umak) and Paul Webber (IMC) can be seen here.

Malossi MHR Clutch Bell is machined from a single steel alloy-forging, surface hardened and tempered, no welds, these new clutch bells feature an innovative manufacturing process and attention to the finest details guarantee a highest quality product.

www.drowsports.com/product/692/Transmission/Clutches___Be...

The Password:JDM Dry Carbon Fiber Engine Cover for the 2013+ Subaru BRZ / Scion FR-S will clean up the look of your engine bay! Like all of our Dry Carbon parts we manufacture, this engine cover has been precision crafted for a perfect fitment every time. We have used a fade resistant resin during the manufacturing process to ensure this plug cover will always look & function as good as the day you bought it!

Includes all necessary mounting hardware.

Features include:

- Perfect dry carbon fitment with structural integrity

- high-heat, fade resistant resin fabrication process

- two options to choose from, dry carbon fiber and dry carbon kevlar

- Extreme lightweight to strength ratio

- Made in the USA

- Badass looks for your BRZ or FR-S engine bay!

Husband is delighted that I have finally taken this photo so that the treat can be eaten :-)

Extra pic in first comment.

J.H. Whittaker & Sons, Ltd (Whittaker's) is a confectionery manufacturer specialising in chocolate and based in Porirua, New Zealand. Whittaker's is the second-biggest chocolate brand in New Zealand, behind Cadbury. The company controls its entire manufacturing process, calling itself a "bean-to-bar" manufacturer, to ensure top-quality products. James Henry Whittaker started the business in Christchurch in 1896 and it was later moved to Wellington.

James Henry Whittaker worked in the British confectionery industry at the age of 14 and moved to Christchurch, New Zealand, in 1890. Six years later he started manufacturing chocolate confectionery, selling it direct to customers using horse and van. In 1913, he established a partnership with his two sons, Ronald and James, based in Wellington. The business became a limited liability company in 1937, with third-generation Whittakers still the sole shareholders in the company. In 1992 the company formed J.H. Whittaker Australia Ltd.

Wikipedia

30/31 July is Chocolate Brown, 365 Colours.

Enamelling is an ancient technology. The ancient Egyptians used enamelling to decorate pottery, stone objects and to create jewellery. The ancient Chinese used enamelling to decorate metal objects. During the Roman period enamelling was used to decorate glass vessels.

More recent examples include the 56 fantastic eggs created by the Russian jewellery Peter Carl Fabergé (1846 - 1920), of which only 46 are believed to still exist.

Examples of modern uses of vitreous enamel include the production of jewellery, decorative art objects, durable kitchenware and appliances, presentation and educational boards, cloakroom cubicles, vanity tops, internal and external architectural cladding panels, enamelled steel sanitary ware, furniture and sign boards.

Enamel Glaze: Versatile and Beautiful

As a surface coating, especially iron and steel, vitreous enamel is unassailable. Highly durable with a long service life, it resists scratching and chemical marring. It is easy to clean, and therefore, very hygienic.

But paints, plastics, aluminum, and stainless steel offer stiff competition. Even the Underground station, famed for the use of enamel panels in its stations, turned to laminates.

The industry took a downturn until research:

Improved food cooked in microwave ovens

Discovered new formulations that improve already excellent hygiene properties

Updated manufacturing process

Microwave Mismatches

Microwave ovens are usually lined with plastic, stainless steel, or a painted surface. Okay for the basic process, but since integrated functions such as a grill, air circulation, and steam heating have been added, temperatures in the chamber can rise to 572°F (300°C) or more. Higher temperatures can result in staining, yellowing, and distortion. If an enamel lining is used, these faults are avoided altogether.

An added bonus is that because enameled steel has half the thermal conductivity of stainless steel, it actually improves food quality. This lower conductivity means less energy usage for the same cooking effect, shorter cooking times, and more vitamins retained in the cooked food.

Keeping It Hygienic

One of enamel's great advantages is its scratch resistance. Microbes have no place to hide and are easily cleaned away.

In another development, A Japanese researchers discovered an enamel formulation which, while proven safe for humans, actively kills germs. By incorporating small amounts of copper and silver in the enamel, scientists found that the enamel has an in-use antimicrobial action. It seems that the metal ions either upset the germs' enzyme systems, or that oxygen is released, damaging their cell walls. Either way, they are killed.

Taking Sides with ALUSI Coats

Cost was one reason for replacing enamel with painted surfaces on white goods and reduced use of enamel for architectural panels. To achieve rust resistance, both sides of the panel have to be coated, which increases cost.

But new developments enable rust resistance of sheets enameled on one side only. Aluminizing the steel (on both sides) first was described by scientists from Sollac and Ferro in France at the 1998 International Enamellers Congress. Enameling on aluminum/silicon (ALUSI)-coated steel sheets has other benefits, including:

Lower production costs because the enamel can be applied in one coat, on one side, and fired only once

Better able to resist chipping and cracking if the panel is bent

Going Underground with Enamels (Again)

For a time in the late 20th century, An Underground station abandoned enamel panels in station refurbishment to reduce costs. However, after suffering tragic fires, the Underground found itself facing much tougher fire regulations. The solution was to bring back the decorative enamel panel, which is tough, durable, easily cleaned—and totally fire resistant.

Boric Oxide: Key Ingredient in Enamel Glaze

The glass used to enamel metals is no ordinary glass. It must be very fluid when molten and have a low surface tension to enable it to spread evenly over the metal at a relatively low temperature. But most important is the need to adjust the glass' thermal expansion.

The major hurdle in making large pieces is the different rates of expansion of glass and metal during cooling and warming. If the rates are not nearly the same, the enamel will crack, craze, or flake off.

The answer? Boric oxide. Comprising up to 25% of an enamel mixture, it is responsible for the low melt temperature, viscosity, and surface tension needed. Boric oxide also has the remarkable property of altering the glass’ thermal expansion to suit the metal underneath.

Boric oxide also promotes a smooth surface and high luster. Either Neobor or Dehybor can be used. Dehybor has the advantage that it has no water of crystallization to dispel in the furnace, reducing emissions and plant corrosion. Dehybor is also a more concentrated source of boric oxide, resulting in productivity gains and lower handling and freight costs for the manufacturer.

In practice, vitreous enamel usually marries two different kinds of glass. The first base coat includes cobalt and nickel oxides which help to form a very strong bond with the metal. A second base coat carries color and decoration.

The resultant bond is virtually inseparable, creating the extreme durability and rust resistance of enameled iron and steel. It is also the only metal coating process that can be guaranteed to resist the severe thermal shock in water boilers, stoves, ovens and cookware.

From home appliances to fire resistant signs in the subway, vitreous enamels are making everyday life safer and more beautiful.

The company was founded by John Dyson who began mining clay and making bricks in the early 1800s. From the very beginning the business was a success. The 1834 Sheffield trade directory lists - “John Dyson - Brick Maker, Stannington” which indicates that he ran the business on his own. However, by 1838 the business was listed as “John Dyson and Son - Black clay miners and firebrick manufacturers, Griffs House, Stannington.

Dyson's were manufacturers of Refractory material, ceramics for the steel industry, they also produce fire backs and other household ceramic bricks for the likes of Aga's etc. They have also been know to sell clay for use in Well Dressings.

Unfortunately Dyson's traditional manufacturing process relied heavily on gas fired kilns. With increased in energy costs the plants was no longer economically viable, despite the very best efforts of the management and staff alike the site closed around 2005.

The high performance niche products in Dyson's range are still available and are the cornerstone in Dyson's progression. The company have a wholly owned manufacturing facility in Tianjin, PRC which produces is high quality products.

(En) Founded in 1906, the Coking Plant of Anderlues was specialized in the production of coke for industrial use.

Coke was obtained by distillation of coal in furnaces and, thanks to its superior fuel coal properties, it was used afterwards to feed the blast furnaces in the steel manufacturing process.

Closed and abandoned since 2002, the site has since undergone many losses and damages, not including an important pollution. While some buildings have now been demolished, there are however still some important parts of the former coking plant.

Among them, the former coal tower, next to the imposing "battery" of 38 furnaces, where the coke was produced. Besides them, we still can see the administrative buildings, the power station with its cooling tower, and buildings for the by-products, which were obtained by recovering the tar and coal gas. There are also a gasometer north side, the coal tip east side and a settling basin south side.

-----------

(Fr) Fondées en 1906, les Cokeries d'Anderlues étaient spécialisées dans la fabrication de coke à usage industriel.

Le coke était obtenu par distillation de la houille dans des fours et, grâce à ses propriétés combustibles supérieures au charbon, il servait par après à alimenter les hauts-fourneaux dans le processus de fabrication de l'acier.

Fermé et laissé à l'abandon depuis 2002, le site a depuis lors subi de nombreuses pertes et dégradations, sans compter la pollution qui y règne. Si certains bâtiments (comme l'ancien lavoir à charbon) ont aujourd'hui été démolis, on retrouve encore toutefois certaines parties importantes de cette ancienne cokerie.

Parmi celles-ci, l'ancienne tour à charbon suivie de près par l'imposante "batterie" de 38 fours, où était produit le coke. A côté d'eux, on découvre également les bâtiments administratifs, la centrale électrique avec sa tour de refroidissement, ainsi que les bâtiments des sous-produits, lesquels étaient obtenus par récupération du goudron et du gaz de houille. Et en périphérie, on retrouve un gazomètre côté nord, le terril à l'est et un bassin de décantation côté sud.

(En) Founded in 1906, the Coking Plant of Anderlues was specialized in the production of coke for industrial use.

Coke was obtained by distillation of coal in furnaces and, thanks to its superior fuel coal properties, it was used afterwards to feed the blast furnaces in the steel manufacturing process.

Closed and abandoned since 2002, the site has since undergone many losses and damages, not including an important pollution. While some buildings have now been demolished, there are however still some important parts of the former coking plant.

Among them, the former coal tower, next to the imposing "battery" of 38 furnaces, where the coke was produced. Besides them, we still can see the administrative buildings, the power station with its cooling tower, and buildings for the by-products, which were obtained by recovering the tar and coal gas. There are also a gasometer north side, the coal tip east side and a settling basin south side.

-----------

(Fr) Fondées en 1906, les Cokeries d'Anderlues étaient spécialisées dans la fabrication de coke à usage industriel.

Le coke était obtenu par distillation de la houille dans des fours et, grâce à ses propriétés combustibles supérieures au charbon, il servait par après à alimenter les hauts-fourneaux dans le processus de fabrication de l'acier.

Fermé et laissé à l'abandon depuis 2002, le site a depuis lors subi de nombreuses pertes et dégradations, sans compter la pollution qui y règne. Si certains bâtiments (comme l'ancien lavoir à charbon) ont aujourd'hui été démolis, on retrouve encore toutefois certaines parties importantes de cette ancienne cokerie.

Parmi celles-ci, l'ancienne tour à charbon suivie de près par l'imposante "batterie" de 38 fours, où était produit le coke. A côté d'eux, on découvre également les bâtiments administratifs, la centrale électrique avec sa tour de refroidissement, ainsi que les bâtiments des sous-produits, lesquels étaient obtenus par récupération du goudron et du gaz de houille. Et en périphérie, on retrouve un gazomètre côté nord, le terril à l'est et un bassin de décantation côté sud.

The Regal theater seating is a plush and luxurious design that offers a superior degree of comfort and refinement. The seat features multi-panel upholstery detail that accentuates ergonomic contouring and provides exceptional levels of comfort in reclining backrests. Designed as a low maintenance, luxurious seating solution, Regal theater seating is the popular choice amount discerning cinema operators. Once only available to movie theaters in large quantities, SeatsAndChairs.com is now offering the Regal theater seating to the smaller cinema and home theater markets.

The attractive features of the Regal theater seats, which include plush fabrics and well positioned cup holders, create a stylish and total cinema experience for patrons. From VIP to general seating, Regal theater seating provides venues with a range of exciting design alternatives.

Molded polyurethane foam

The specifically formulated polyurethane foam used to individually mold seats and backrest cushions provides the perfect balance between support and comfort. The manufacturing process ensures the foam will not collapse or flatten at any stage, but will provide lasting comfort and ergonomic support.

Variable seat center system

The unique variable seat centre system enables optimized installation with the ability to space seats at various intervals, providing a range of seat centers and creating a best fit installation.

Gravity tilt seats

Innovative gravity tilt seats using fully enclosed counterweights are silent, dependable and reliable – a sensible alternative to high maintenance and unreliable pivot springs.

Reclining backrests

Designed in consultation with world renowned ergonomists, the Regal theater seating offers extremely high levels of comfort in a patented reclining backrest mechanism for greater comfort.

All upholstery covers are easily replaceable and feature foam backed fabric for stretch control and elimination of seam slippage or sagging. In just a matter of minutes, seats and backrest cushions can be easily removed by venue staff in case of spillage, stains or even a complete change of color scheme.

Easy installation with minimal fixings

Once the leg standards have been installed, the seats and backrests effortlessly glide into place and are securely locked into position.

Use of recycled plastics

In an effort to minimize the impact on the environment, recycled plastics are used in the molding of nonstructural components, such as seat and back upholstery inners. All plastic components bear the recycling code identification marking, compliant with worldwide recycling standards.

The Regal is the very latest in cinema seat technology and comfort. Elegant, contemporary theater seating designs provide patrons with hours of comfort as they sit back, relax and enjoy the show in style.

for more products visit us at : www.seatsandchairs.com

The company was founded by John Dyson who began mining clay and making bricks in the early 1800s. From the very beginning the business was a success. The 1834 Sheffield trade directory lists - “John Dyson - Brick Maker, Stannington” which indicates that he ran the business on his own. However, by 1838 the business was listed as “John Dyson and Son - Black clay miners and firebrick manufacturers, Griffs House, Stannington.

Dyson's were manufacturers of Refractory material, ceramics for the steel industry, they also produce fire backs and other household ceramic bricks for the likes of Aga's etc. They have also been know to sell clay for use in Well Dressings.

Unfortunately Dyson's traditional manufacturing process relied heavily on gas fired kilns. With increased in energy costs the plants was no longer economically viable, despite the very best efforts of the management and staff alike the site closed around 2005.

The high performance niche products in Dyson's range are still available and are the cornerstone in Dyson's progression. The company have a wholly owned manufacturing facility in Tianjin, PRC which produces is high quality products.

JACKSONVILLE, Fla. (May 10, 2017) – Hans-Mill Corporation, one of the nation’s leading manufacturers of metal and plastic household products, will soon open a state-of-the-art manufacturing center near JAXPORT’s North Jacksonville marine terminals. The 121,000-square-foot facility will be used for manufacturing, assembling and distributing stainless steel trash cans and plastic household products sold at major retailers around the world.

Hans-Mill will use JAXPORT to import materials used in its manufacturing process from Asia, as well as for the import of finished goods for U.S. distribution. In addition, the company has been granted permission to operate within JAXPORT’s Foreign Trade Zone No. 64. The facility, which already serves as the company’s headquarters, represents an $11 million investment in Northeast Florida and creates 23 new, direct jobs.

“The efficiencies Northeast Florida provides have allowed us to bring some of the manufacturing that is traditionally done overseas back to the United States,” said Kenneth Ubillus, Hans-Mill Director of Operations. “We felt welcome in Jacksonville from the very beginning and look forward to being a visible part of this community.”

“Hans-Mill’s decision to invest here highlights the many advantages we offer the industry,” said Eric Green, JAXPORT interim CEO. “Excellent ocean service options from Asia, cost-effective transportation, 60 million plus consumers nearby and a business-friendly environment, all continue to attract manufacturing here.”

Hans-Mill joins other household names, including Michaels Stores, Inc., Coach, Inc. and Bacardi Limited, in taking advantage of FTZ No. 64’s cost savings and streamlined Customs processes.

A DISCERNING CARER WILL FIND THAT NOT ALL KIDS BEDDING IS EQUAL!

FORTUNATELY, THERE IS NOW A CHOICE...

Knowing how much time your family will spend in bed makes the bedding you choose an important decision. For carers on the lookout for the very best for their precious little ones, Wriggly Toes can guarantee, the search ends with Wriggly-ology 101.

A discerning carer will find that not all bedding is equal. In fact, children’s bedding isn’t required by law to be completely free of chemicals that are known to be harmful. There are 24 chemicals that have allowable levels in the production of children’s bedding according the current Australian product safety guide. This standard was not high enough for Wriggly Toes. A discerning carer may also find that normal production standards are not up to their own either.

Fortunately there is now a choice and the standards don’t get much higher.

The founders of Wriggly Toes concluded that the only way to ensure the quality they wanted for their own children was to raise the bar themselves. They have done the research, and received the certification that everyone, at every stage of the manufacturing process, can feel safe and happy enough to fall asleep on.

Containing nothing that could irritate delicate skin, even with prolonged contact, Wriggly Toes bedding is non-toxic, sustainable, and ethically made. Each finished product contains no harmful dyes or chemicals - safe for every child.

www.nurtureparentingmagazine.com.au/how-to-choose-the-rig...

(En) Founded in 1906, the Coking Plant of Anderlues was specialized in the production of coke for industrial use.

Coke was obtained by distillation of coal in furnaces and, thanks to its superior fuel coal properties, it was used afterwards to feed the blast furnaces in the steel manufacturing process.

Closed and abandoned since 2002, the site has since undergone many losses and damages, not including an important pollution. While some buildings have now been demolished, there are however still some important parts of the former coking plant.

Among them, the former coal tower, next to the imposing "battery" of 38 furnaces, where the coke was produced. Besides them, we still can see the administrative buildings, the power station with its cooling tower, and buildings for the by-products, which were obtained by recovering the tar and coal gas. There are also a gasometer north side, the coal tip east side and a settling basin south side.

-----------

(Fr) Fondées en 1906, les Cokeries d'Anderlues étaient spécialisées dans la fabrication de coke à usage industriel.

Le coke était obtenu par distillation de la houille dans des fours et, grâce à ses propriétés combustibles supérieures au charbon, il servait par après à alimenter les hauts-fourneaux dans le processus de fabrication de l'acier.

Fermé et laissé à l'abandon depuis 2002, le site a depuis lors subi de nombreuses pertes et dégradations, sans compter la pollution qui y règne. Si certains bâtiments (comme l'ancien lavoir à charbon) ont aujourd'hui été démolis, on retrouve encore toutefois certaines parties importantes de cette ancienne cokerie.

Parmi celles-ci, l'ancienne tour à charbon suivie de près par l'imposante "batterie" de 38 fours, où était produit le coke. A côté d'eux, on découvre également les bâtiments administratifs, la centrale électrique avec sa tour de refroidissement, ainsi que les bâtiments des sous-produits, lesquels étaient obtenus par récupération du goudron et du gaz de houille. Et en périphérie, on retrouve un gazomètre côté nord, le terril à l'est et un bassin de décantation côté sud.

The gigantic Cup Noodle actually houses the "Cup Noodle Drama Theatre":

"Interactive theatre in the shape of Cup Noodle. Anecdotes of inspiration that lead to the invention of the world's first cup-type instant noodle product, 'Cup Noodle' and its manufacturing process, etc., are introduced using powerful, large screen visual images".

Closed off on this day for a school group.

Syrup Manufacturing Plant,Liquid Syrup Plant,Manufacturing Plant, Pharmaceutical syrup manufacturing process,Sugar syrup manufacturing plant-Prism Pharma Machinery,Ahmedabad,Gujarat,India.

For more detail visit us at : www.liquidsyrupmanufacturingplant.com

As technology advances we have the ability to find out with more certainty what we are really achieving with manufacturing processes.

The Laboratory for Integrated Metrology Applications group’s research focuses on developing measurement technologies and processes that can be used to determine quantitative data from the manufacturing of products.

Having real and accurate data helps us to improve the process of manufacture and in turn will enable ‘right first time’ manufacturing.

Driving forward this research and disseminating it to industry will result in a positive impact on UK manufacturing businesses, helping to maintain our competitive position in a global advanced technology market.

Ben Adeline, Department of Mechanical Engineering

Craig Davey, Department of Mechanical Engineering

Destiny Garcia, embracing the second year of her doctorate studies in the UC Davis Department of Mechanical and Aerospace Engineering, is investigating how aerospace parts — such as airplane structures and components — are manufactured. She hopes to develop a method for predicting the residual, stress-based manufacturing distortions and deformations that occur during the manufacturing process.

After earning her PhD, she looks forward to teaching engineering courses, in order to share her passion for manufacturing with next-gen students.

For more information about graduate study at the UC Davis College of Engineering, please visit: engineering.ucdavis.edu/graduate/

Photos by Sean Michael Ayres/UC Davis Engineering

At the Cup Noodles Museum, you can learn the secret of cup noodle and even have the opportunity to make one-of-a-kind ramen yourself.

Japanese food company Nissin operates this unique museum for Ramen.

The museum shows the 40 year product history as well as the founder, Mr. Ando Momofuku's creativity, by exhibiting 3,000 kinds of cup noodle packages.

They also recreate Mr. Ando Momofuku's humble research facility.

At "My Cup Noodle Factory," you can make your own cup noodle out of 5,460 soup base / topping combinations.

There is also "Cup Noodles Park", a playground for kids where they can experience the manufacturing process of Cup Noodle.

There is a "Chicken Ramen Factory" where you can make Chicken Ramen by hand, starting with kneading, spreading, and steaming the wheat flour and then drying it with the hot oil drying method. After experiencing the process that led to the invention of the world's first instant ramen, you can take your freshly made ramen with you and enjoy its delicious taste at home.

And of course you can enjoy global varieties of noodles in the contemporarily designed museum restaurant!

(En) Founded in 1906, the Coking Plant of Anderlues was specialized in the production of coke for industrial use.

Coke was obtained by distillation of coal in furnaces and, thanks to its superior fuel coal properties, it was used afterwards to feed the blast furnaces in the steel manufacturing process.

Closed and abandoned since 2002, the site has since undergone many losses and damages, not including an important pollution. While some buildings have now been demolished, there are however still some important parts of the former coking plant.

Among them, the former coal tower, next to the imposing "battery" of 38 furnaces, where the coke was produced. Besides them, we still can see the administrative buildings, the power station with its cooling tower, and buildings for the by-products, which were obtained by recovering the tar and coal gas. There are also a gasometer north side, the coal tip east side and a settling basin south side.

-----------

(Fr) Fondées en 1906, les Cokeries d'Anderlues étaient spécialisées dans la fabrication de coke à usage industriel.

Le coke était obtenu par distillation de la houille dans des fours et, grâce à ses propriétés combustibles supérieures au charbon, il servait par après à alimenter les hauts-fourneaux dans le processus de fabrication de l'acier.

Fermé et laissé à l'abandon depuis 2002, le site a depuis lors subi de nombreuses pertes et dégradations, sans compter la pollution qui y règne. Si certains bâtiments (comme l'ancien lavoir à charbon) ont aujourd'hui été démolis, on retrouve encore toutefois certaines parties importantes de cette ancienne cokerie.

Parmi celles-ci, l'ancienne tour à charbon suivie de près par l'imposante "batterie" de 38 fours, où était produit le coke. A côté d'eux, on découvre également les bâtiments administratifs, la centrale électrique avec sa tour de refroidissement, ainsi que les bâtiments des sous-produits, lesquels étaient obtenus par récupération du goudron et du gaz de houille. Et en périphérie, on retrouve un gazomètre côté nord, le terril à l'est et un bassin de décantation côté sud.

Rep. Griffith spoke with Volvo employees about their concerns and priorities, learned more about the intricacies of manufacturing processes, and drove a truck on the customer experience track!

Click To Get Special Price Microline TFC-4 Reverse Osmosis Drinking Water System ---- For those who're wanting to buy Microline TFC-4 Reverse Osmosis Drinking Water System at discount price, We have found a great deal and low price for this product on Amazon. Get it today!. Let's see the product detail. The Microline TFC-4 under-sink reverse osmosis system contains a four stage filtration system that supplies up to 35 gallons per day of purified drinking water - right at the sink! The system uses a high quality T.F.C. reverse osmosis membrane with a sediment pre-filter, carbon post-filter and in-line polishing carbon filter. The free replacement filter set includes the pre, post and in-line filters. These units include a pressurized polymer holding tank, color-coded tubing for easy homeowner installation, chrome dispensing faucet, and under-sink cartridge assembly that is easily accessed for quick filter removal and replacement. Also included is an automatic shut-off feature that stops the purified water manufacturing process when the holding tank is full. Units are NSF standard 58 approved, use only FDA approved materials of construction, are tested to meet Water Quality Association Gold Seal standards, and have a limited 5-year warranty on materials and workmanship.. Where to get this Microline TFC-4 Reverse Osmosis Drinking Water System? Check Discount,Click!! www.amazon.com/gp/product/B000G7LR86/ref=as_li_ss_...

3T RPD created this model using Selective Laser Sintering (SLS)- an Additive Manufacturing process- for Fosters & Partners. www.3trpd.co.uk

The Password JDM Dry Carbon Fiber Engine Pulley Cover NEW SUBARU BRZ SCION FR-S V1 will clean up the look of your engine bay! Like all of our Dry Carbon parts we manufacture, this engine cover has been precision crafted for a perfect fitment every time. We have used a fade resistant resin during the manufacturing process to ensure this pulley cover will always look & function as good as the day you bought it!

Includes all necessary mounting hardware.

Features include:

- Perfect dry carbon fitment with structural integrity

- high-heat, fade resistant resin fabrication process

- Extreme lightweight to strength ratio

- Made in the USA

- Badass looks for your BRZ or FR-S engine bay!

The company was founded by John Dyson who began mining clay and making bricks in the early 1800s. From the very beginning the business was a success. The 1834 Sheffield trade directory lists - “John Dyson - Brick Maker, Stannington” which indicates that he ran the business on his own. However, by 1838 the business was listed as “John Dyson and Son - Black clay miners and firebrick manufacturers, Griffs House, Stannington.

Dyson's were manufacturers of Refractory material, ceramics for the steel industry, they also produce fire backs and other household ceramic bricks for the likes of Aga's etc. They have also been know to sell clay for use in Well Dressings.

Unfortunately Dyson's traditional manufacturing process relied heavily on gas fired kilns. With increased in energy costs the plants was no longer economically viable, despite the very best efforts of the management and staff alike the site closed around 2005.

The high performance niche products in Dyson's range are still available and are the cornerstone in Dyson's progression. The company have a wholly owned manufacturing facility in Tianjin, PRC which produces is high quality products.

(En) Founded in 1906, the Coking Plant of Anderlues was specialized in the production of coke for industrial use.

Coke was obtained by distillation of coal in furnaces and, thanks to its superior fuel coal properties, it was used afterwards to feed the blast furnaces in the steel manufacturing process.

Closed and abandoned since 2002, the site has since undergone many losses and damages, not including an important pollution. While some buildings have now been demolished, there are however still some important parts of the former coking plant.

Among them, the former coal tower, next to the imposing "battery" of 38 furnaces, where the coke was produced. Besides them, we still can see the administrative buildings, the power station with its cooling tower, and buildings for the by-products, which were obtained by recovering the tar and coal gas. There are also a gasometer north side, the coal tip east side and a settling basin south side.

-----------

(Fr) Fondées en 1906, les Cokeries d'Anderlues étaient spécialisées dans la fabrication de coke à usage industriel.

Le coke était obtenu par distillation de la houille dans des fours et, grâce à ses propriétés combustibles supérieures au charbon, il servait par après à alimenter les hauts-fourneaux dans le processus de fabrication de l'acier.

Fermé et laissé à l'abandon depuis 2002, le site a depuis lors subi de nombreuses pertes et dégradations, sans compter la pollution qui y règne. Si certains bâtiments (comme l'ancien lavoir à charbon) ont aujourd'hui été démolis, on retrouve encore toutefois certaines parties importantes de cette ancienne cokerie.

Parmi celles-ci, l'ancienne tour à charbon suivie de près par l'imposante "batterie" de 38 fours, où était produit le coke. A côté d'eux, on découvre également les bâtiments administratifs, la centrale électrique avec sa tour de refroidissement, ainsi que les bâtiments des sous-produits, lesquels étaient obtenus par récupération du goudron et du gaz de houille. Et en périphérie, on retrouve un gazomètre côté nord, le terril à l'est et un bassin de décantation côté sud.

Components made through additive manufacturing are typically lighter than those made through traditional manufacturing processes.

Xiaomi Mi4 SmartPhone Snapdragon 801 Quad-core 2.5GHZ 5.0 Inch 13MP camera RAM 3GB ROM 64GB

Main Fertures:

•Cpu Qualcomm SnapDragon Quad Core 2.5 Gh

•5 inch - Display Resolution 1920*1080

•3 Gb Ram - 64 Gb Rom

•Android 4.4.3 Kit Kat

•LTE - WiFi - GPS - Bluetooth

•Back Camera 13 Mpx - Front Camera 8 Mpx

www.antemall.com/brand-mobile-center/xiao-mi-android-smar...

www.greenpcba.com/plastic-injection-molding-services/

Which Mold do you want to do? Plastic Injection/die casting or punch mold, etc. Which Mould Material do you want choice? 45#, 50#, P20, H13, 718, 2738, NAK80, S136, SKD61, etc. Which does the Product Material want? PP, PC, PS, PE, PU, PVC, ABS, PMMA, etc.

How many Cavities? Single/Multiple. Which Designing Software do you use? UG/CAD/PROE etc. Runner? Hot/cold.

Tolerance? 0.005 - 0.01mm. Mould Life? 300000 - 1000000 Shots. Mould Base? LKM/HASCO/DME, etc.

Package Wooden Case Delivery By Sea/By Air or keep the mold in our factory and injection from us. As per customers' demand.

With plastic injection molding services, GreensTone is able to provide complete product manufacturing and fabrication for our customers. We offer a range of surface finishing options and can advise on material selection and part engineering concerns.

Advantages of Plastic Injection Molding

Injection molding is one of the most often-used manufacturing processes for creating plastic parts. Thanks to its high-precision, repeatability, and cost efficiency at scale, injection molding is used to make a variety of products and parts from the smallest medical insert up to large automotive & aerospace and defense parts.

GreensTone offers a wide array of plastic molding and finishing services, allowing us to act as a one-stop resource for low-cost plastic molding in China. We offer silk screening, pad printing, painting, and powder coating, and can provide testing and quality compliance checks on all components, including inspection with spectrophotometers.

Customers often rely on GreensTone’s expert engineering services, which provide design assistance as well as quality oversight. From molding structure, plastic material selection to detailed processes, the GreensTone team works to ensure our plastic molded parts provide reliable performance in the final application.

How Does Injection Molding Work?

The injection molding process requires an injection molding machine, raw plastic material, and a machined mold. The raw plastic material is first melted in the injection unit and is then injected into the mold — most often machined from steel or aluminum — where it cools and solidifies into the final plastic part. The key steps in the injection molding process are clamping, injection, cooling, and ejection.

Available Material for Injection Molding

ABS: Acrylonitrile Butadiene Styrene (ABS) is an opaque thermoplastic and amorphous polymer and is an ideal choice for applications that require an inexpensive, strong, stiff plastic that holds up well to external impacts.

POM: POM is a plastic material featuring a very high tensile strength, with an outstanding resistance to creep, allowing it to bridge the gaps of material properties between most of the plastics and metals.

Nylon: Nylon plastic (PA) is a synthetic thermoplastic polymer commonly used in injection molding applications.

It's a versatile, durable, flexible material often used to as a more affordable alternative other materials like silk, rubber, and latex.

PC: Polycarbonate (PC) is an amorphous thermoplastic. It is highly transparent, impact-/creep-resistant and can be applied within a wide range of temperature conditions.

PC/ABS: PC/ABS is a thermoplastic made of PC and ABS alloys, which combines the excellent properties of both materials. It is widely used in automotive trims, lampshades, handles and other components.

PVC: PVC plastic is budget-friendly, resistant to environmental degradation, chemicals, and alkalis, and has excellent tensile strength and hardness.

PE: Polyethylene is a thermoplastic polymer with a variable crystalline structure and a vast range of applications depending on the particular type. It is one of the most widely produced plastics in the world.

PP: Polypropylene(PS) injection molding material, is a thermoplastic addition polymer made by combining several propylene monomers.

PS: Polystyrene (PS) plastic is a naturally transparent thermoplastic that is available as both a typical solid plastic as well in the form of a rigid foam material.

100118-F-0782R-015 Kabul- A Kabul Milli factory employee hammers down the sole of a boot during the boot manufacturing process in Kabul, Afghanistan, Jan. 18, 2010. Members of CSTC-A and the Afghan National Army visited the boot factory to observe the boot manufacturing process and to initiate a process improvement program..

(U.S. Air Force Photo/Staff Sgt. Larry E. Reid Jr., Released)

the fibre //

Merino/Tencel 50/50 blend top. Take fluffy ecru 80s Merino and blend it together with Tencel, a regenerated cellulose fibre, and you get this soft, shimmery and streaky spinning fibre.

If you haven’t tried it before, Tencel is a fibre that is spun from wood pulp using a closed-loop (more eco-friendly) manufacturing process. Being cellulose-based, this fibre doesn’t take our dyes the same way wool or protein fibres do, so the result is that the merino dyes a deep colour and the tencel fibres stain lightly causing the streakiness in the final fibre.

the colourway & inspiration //

“Picnic Pop” combines icy pale and dark blues with the sharp contrast of a berry stain.

It’s this crazy rainy spring weather we’ve been having… it’s made me look forward to summer and the thought of ice-cold Rocket Pops on a blazing hot summer day and red and blue gingham picnic tables filled with friends.

Torsion Springs are helical suspension springs that exert a torque or rotary force. The ends of torsion springs are attached to other components, and when those components rotate around the center of the planting season, the spring attempts to push them back to their original position. Though the name implies normally, torsion springs are exposed to bending stress somewhat than torsional stress. That they can store and release angular energy or statically hold a mechanism set up by deflecting the lower limbs about the body centerline axis. This type of torsion spring is generally close wound but may have a pitch to reduce friction between your coils. That they offer resistance to perspective or rotationally applied power. Depending on the app, torsion springs can be designed to operate a clockwise or counter-clockwise rotatable, thus deciding the course of the wind.

Kalyani Springs offers a selection of torsion springs with legs of equal span oriented at varying regular angles. Torsion springs can store and release slanted energy or statically maintain a mechanism in place by deflecting the lower limbs about the body centerline axis. They offer a level of resistance to twist or rotationally applied force. A planting season of this type will reduce in body dimension and increase slightly in body length when deflected in the preferred way of the fabricated blowing wind. Depending on the program, torsion springs can be designed to operate a clockwise or counter-clockwise rotatable, thus deciding the path of the wind. Prevalent torsion springs are those used in a clothespin or a garage door. Torsion springs exert a torque if they are twisted or deflected. The spring rpm and the size of the legs together make a force. Torsion springs can be made out of round, rectangular or formed a wire. A simple Torsion spring has straight, but any bends or designs can be formed. Increase torsion springs can be used when twice the force is required or when you need an even distribution torque capacity.

Tolerances:

Tolerance values for torsion springs rely upon the body-diameter to wire-diameter rate and are about +/- 10% in torque and +/- 5% in size.

Finish

Our stock Torsion springs come in an array of commonly requested finishes:

1. Zinc

2. Yellow metal Irridite

3. Passivated (upon request)

4. None (can be plated after request)

Applications:

Common torsion comes are being used in clothes stakes, clipboards, swing-down tailgates, storage area doors, window shades, make up for mechanisms, ratchets and various types of machine components. Torsion springs are being used for hinges, counterbalances and handle return applications. Also, they are used as couplings between concentric shafts, such just as a motor and pump assemblage. Torsion springs are often attached around a shaft or arbor and must be supported at three or even more points. Various sorts of ends are available to facilitate mounting.

Sizes range from miniature, used in electronic devices, to large torsion springs used in chair control units. The load should be applied in the direction of the wind; unwinding from the free position is not recommended. As they turn out, torsion springs reduce in diameter and their body length becomes for a longer time. This should be regarded as when design space is constrained. Torsion Springs perform best when supported by a rod or tube. The designer should consider the consequence of friction and arm deviation on the torque.

Torsion Spring Terminology

Angular Deviation - is the viewpoint of rotation as assessed from the free position to the installed, advanced or final positions.

Free of charge Angle - is the angle between the biceps and triceps of your torsion spring when the spring is in the unloaded position.

Calf Length - is the length of legs as defined from the axis of the spring body to the outermost point.

Mandrel - is a rod or shaft over which a torsion early spring operates.

Radius - is the bend radius at which a load is applied to a calf. The radius is usually assumed to be matched to 1/2 the lower-leg length.

Torque - is a twisting action in torsion springs which produces rotation, corresponding to the insert multiplied by the space from the load to the axis of the springtime body.

Maximum Deflection - is the maximum graded angular deflection of spring and coil before damage.

Configurations: Torsion springs are designed and wound to be actuated rotationally, also to provide an angular return force. Presently there are many options for leg configuration so the spring can be fastened in several ways. Leg technical specs to consider for torsion springs include leg viewpoint, equal leg length, and legend style. Springs that are straight or similar on the same part are considered to have a 0? leg position the increasing angle is in the unwinding path. Legend style choices include straight torsion, straight balance, hinged, short hook draws to a close, and hook ends. Torsion spring ends can be bent, twisted, hooked or looped to suit your project needs. Lee Torsion Stock Springs can be found in a choice of 80? 120? 180? 210?, 270?, 300? and 360? free leg position. The increase torsion spring involves one set of coils coiled right hand and one set of coils coiled left. These coils are connected, usually with an unwound section between the winds and work in parallel. The sections are designed separately with the overall torque being the amount of the two.

Delvendahl Martin Architects’ installation for Moss Bross explores the possibilities of the windows by distorting the perception of depth and perspective as viewed from the street. This is achieved by using hundreds of cotton strings to stitch the edges of the window space to form a series of seemingly floating voids, where the three main strands of Moss Bros products arebe displayed. The material expression of the cotton strings recall the raw materials of garments, the loom-based manufacturing process of cloth, and the craftsmanship of the Moss Bespoke service.

Photography (c) Agnese Sanvito

Syrup Manufacturing Plant,Liquid Syrup Plant,Manufacturing Plant, Pharmaceutical syrup manufacturing process,Sugar syrup manufacturing plant-Prism Pharma Machinery,Ahmedabad,Gujarat,India.

For more detail visit us at : www.liquidsyrupmanufacturingplant.com

"Princechair"

by Louise Campbell

www.louisecampbell.com/

Manufacturer: HAY

Denmark, 2001 launched 2005

Concept: This chair was originally designed in 2001 for a competition with the theme: design a chair for His Royal Highness the Crown Prince Frederik. Bound by centuries of firm traditions, and yet a young man very much in touch with his generation, Frederik lives a life full of contrasts. These contrasts were the obvious inspiration in designing the chair. On one level it illustrates a motif resembling fine old lace, (there is a point to the transparency of the chair – it is hard for a prince to hide from the public eye,) on the other level the chair is produced using visibly high technology methods. The chair didn’t win this competition, but has, since Hay decided to put it into production in 2005, managed to create a pleasantly high-flying jet-set life for itself anyway.

By challenging modern manufacturing processes, it is possible to perforate two very different materials – steel and rubber - with precisely the same pattern. The steel creates the framework of this chair, the rubber gives it softness and comfort, a refreshing alternative to upholstery.

Materials: Laser cut steel. Water cut neoprene rubber laminated with felt. Powder coated steel frame.

Dimensions: W940 H76 D: 75 cm.

Contact well-known Guar Gum Manufacturing Process and Micro Crystalline Cellulose Powder Plant

Machineries Manufacturer in India at ww.raj-turnkey.com.

(En) Founded in 1906, the Coking Plant of Anderlues was specialized in the production of coke for industrial use.

Coke was obtained by distillation of coal in furnaces and, thanks to its superior fuel coal properties, it was used afterwards to feed the blast furnaces in the steel manufacturing process.

Closed and abandoned since 2002, the site has since undergone many losses and damages, not including an important pollution. While some buildings have now been demolished, there are however still some important parts of the former coking plant.

Among them, the former coal tower, next to the imposing "battery" of 38 furnaces, where the coke was produced. Besides them, we still can see the administrative buildings, the power station with its cooling tower, and buildings for the by-products, which were obtained by recovering the tar and coal gas. There are also a gasometer north side, the coal tip east side and a settling basin south side.

-----------

(Fr) Fondées en 1906, les Cokeries d'Anderlues étaient spécialisées dans la fabrication de coke à usage industriel.

Le coke était obtenu par distillation de la houille dans des fours et, grâce à ses propriétés combustibles supérieures au charbon, il servait par après à alimenter les hauts-fourneaux dans le processus de fabrication de l'acier.

Fermé et laissé à l'abandon depuis 2002, le site a depuis lors subi de nombreuses pertes et dégradations, sans compter la pollution qui y règne. Si certains bâtiments (comme l'ancien lavoir à charbon) ont aujourd'hui été démolis, on retrouve encore toutefois certaines parties importantes de cette ancienne cokerie.

Parmi celles-ci, l'ancienne tour à charbon suivie de près par l'imposante "batterie" de 38 fours, où était produit le coke. A côté d'eux, on découvre également les bâtiments administratifs, la centrale électrique avec sa tour de refroidissement, ainsi que les bâtiments des sous-produits, lesquels étaient obtenus par récupération du goudron et du gaz de houille. Et en périphérie, on retrouve un gazomètre côté nord, le terril à l'est et un bassin de décantation côté sud.

2019 Xplore Engineering

Workshop: The Manufacturing Process Challenge

Photo: Joseph Xu/Michigan Engineering, Communications & Marketing

Some deep marks from the manufacturing process still show, but overall it was a big improvement in appearance with a single application of polishing compound