The mill made many products in its time, mostly spinning and threading bobbins for

the cotton industry, in Lancashire and beyond. The mill was part of a much bigger worldwide cotton manufacturing process. It also made items for local use such as axe and brush handles, mole traps, washing dollies (long poles used to turn and stir laundry) and clog soles.

100118-F-0782R-022 Kabul- A Kabul Milli factory employee inspects a finished boot before sending it off for distribution 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)

Depicting the Ascension and The Last Supper.

The Gregory coat of arms can be seen on either side.

Glass by Ward & Hughes, c. 1870's.

Note the paint loss and fading. This is probably due to the use of Borax in the manufacturing process.

From the planting of the seed to the end of the manufacturing process,Portuguese cork makes for authentic, high quality and eco-efficient cork products that are created with true craftsmanship and care.

Noodles Bazaar

The menu for this food attraction features eight varieties of noodles that Momofuku Ando encountered during his travels in search of ramen's origins. Enjoy the noodle culture that has spread to every corner of the world in an ambience that is like an Asian night market.

------------------------

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!

The contemporary Ipanema Deep Seating Sofa, designed by Glyn Peter Machin, is a three person seating option and a great way to bring elegance and comfort to any outdoor entertainment area. With a precise and unique manufacturing process alongside their trademark use of teak wood for all of their furniture, Kinglsey Bate has become the top producer of outdoor furniture in America and continues to present top notch contemporary designs.

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!

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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!

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MicroPack III (MPIII) miniature data loggers are designed to provide accurate data to help optimise food, pharmaceutical and other manufacturing processes, and can be adapted to almost any situation.

(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.

Mechanical Engineering-Engineering Mechanics Capstone Senior Design Team

MacLean-Fogg Component Solutions—Mine Bit Manufacturing Process

Team Members: Joseph Jendrusina, Sean Kuchta, Michael Larson, and Tyler Nault, Mechanical Engineering

Advisor: William Endres, Mechanical Engineering-

Engineering Mechanics

Sponsor: MacLean-Fogg Component Solutions

Project Overview:

MacLean-Fogg currently uses a batch and queue

process for their mine bit manufacturing. Our

team was tasked with generating a one-piece pull

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incorporated into the project.

The rectangular pit in the Warmley Grotto, nr. Bristol. It is thought that this was used as part of William Champion's experiments in the manufacturing processes for bras and/or zinc and may have had a water wheel in it

The 275,000-square-foot school is built to serve up to 1,400 students.

Hunter XCI Foil product is used in the construction of the new Ankeny High school. XCI Foil is a high thermal, rigid building insulation composed of a closed cell polyiso foam core bonded on-line during the manufacturing process to an impermeable foil facing material. It is designed for use in commercial cavity wall applications to provide continuous insulation within the building envelope.

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Architect: DLR Group

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GC/Builder: Stahl Construction

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(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.

Museu del Disseny / Design Museum Barcelona, Spain

The Museu del Disseny de Barcelona brings together, under one roof, the collections of the Museu de les Arts Decoratives, the Museu de Ceràmica, the Museu Tèxtil i d'Indumentària and the Gabinet de les Arts Gràfiques, to showcase its vast heritage of more than 70,000 objects.

The Museu del Disseny is based on a common theme «From the decorative arts to design», and is dedicated to the culture of the object, focusing on pieces that are often from the everyday sphere, their design, manufacturing process, use and distribution, aesthetic and functional obsolescence, all from a 21st-century perspective.

The Disseny Hub Barcelona building was designed by MBM architects. The building comprises two parts: an underground section made possible by the change in level caused by the redevelopment of the square; and a block at street level, which cantilevers out towards the Plaça de les Glòries, 14.5 metres above the ground. This block houses the venues for long- and short-term temporary exhibitions, as well as a hall for events and a large auditorium. Most of the building's floor space is located below this level and houses key areas such as the main exhibition gallery, the documentation centre, research rooms, the bar and restaurant and the shop. The entire project complies with high environmental quality and sustainability standards which are achieved through a large-scale, self-sufficient energy system.

Thermoplastic particles are added to thermosetting resin systems to increase the toughness of laminated composite materials. While the actual toughening mechanism of the particles is the subject of ongoing research, these particles make our airplanes less susceptible to damage, bringing about safer flights. In this image, the particles are monitored during the manufacturing process to identify how their behaviour evolves to create very tough composite structures.

The Image/Spectra film manufacturing process is much simpler than 600 film, as the print edges are heat sealed and cut, rather than wrapped around the negative.

040

Friday, December 8th, 2017

Fortune Global Forum 2017

Guangzhou, China

8:00 AMâ9:20 AM

SMART MANUFACTURING AND THE INTERNET OF THINGS

Around the world, factory floors and assembly lines are becoming highly automated, combining human ingenuity with data and technology to revolutionize product and productivity outcomes. As the notion of a âfactory of the futureâ continues to evolve, how are companies incorporating âsmartâ and connected products into their manufacturing process? From sensors and robots to 3D printing and green technology, global companies are experimenting with a variety of methods to streamline, scale, and sustain their business. Here in China, manufacturers have been asked to deliver on the nationâs âMade in China 2025â strategy and are aggressively pursuing their own strategies to become smarter, greener, and more efficient. As these changes take hold, what are the implications for those doing business in China and for supply chains worldwide? And how are companies redeploying and reeducating their workforces as traditional factory jobs become automated and the need for technically proficient talent increases?

Hosted by The City of Guangzhou

Börje Ekholm, President and CEO, Ericsson Group

Till Reuter, Chief Executive Officer, KUKA

Tony Tan, Partner, Shanghai Office, McKinsey & Company

Wang Wenyin, Chairman, Amer International Group

Shoei Yamana, President and CEO, Konica Minolta

Zhang Jing, Founder and Chairman, Cedar Holdings Group

Moderator: Adam Lashinsky, Fortune

Photograph by Vivek Prakash/Fortune

As we move towards the exit, we walk past the entire beer manufacturing process once again. Our guide stopped here to give us some more interesting tidbits about the brewery and how it came to be. There was a LCD television there running a film in a continuous loop about the entire beer production process. Our guide uses the remote to correct a sequence fault in the film on display. (Toronto, Canada, Nov.2015)

Until its closure in 1968 Thomas Nelsons was one of the most successful publishing houses in the world. The company had been trading in Edinburgh since 1798 when Thomas Nelson established a second-hand bookshop at the West Bow. The experience as a bookseller convinced Thomas of the existence of a ready market for cheap, standard editions of non-copyright works, and he satisfied it by issuing popular editions of classics.However, with the building in 1845 of a new printing house at Hope Park, the complete book manufacturing process was carried out under one roof, with a pay-roll of over four hundred employees.

A fire devastated Hope Park in 1878, causing damage estimated between £100,000 and £200,000. Within two months Thomas Nelson and Sons were back in operation, albeit on a limited scale. Within two years the production works moved to a new site at Parkside near the brothers’ own properties. The calamity at Hope Park had brought the fortuitous benefit of investment in new plant from which a flood of reprints, schoolbooks, prize books and religious books poured – all at inexpensive prices. The New Factory, capable of producing 200,000 books a week, was built at Parkside in 1907 to undertake the various Classics series. It stood in extensive grounds facing the Dalkeith Road, Edinburgh. The works themselves covered about five acres of ground and the New Factory an additional acre.

Parkside was equipped with the most modern printing and bindery machinery of their day as it was the aim that every process of book production should be undertaken within the factory. Many of the machines, especially in the bindery were constructed by the Nelsons. With the new space provided at Parkside, Thomas Nelson junior was able to investigate new processes including developing a surface paper. This paper was partly made by hand, for use with half tone blacks, a technique which was nearly as innovative as his development of the rotary press

Edinburgh City of Print is a joint project between the City of Edinburgh Museums and the Scottish Archive of Print and Publishing History Records (SAPPHIRE). The project aims to catalogue and make accessible the wealth of printing collections held by the City of Edinburgh Museums. For more information about the project please visit www.edinburghcityofprint.org

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Noodles Bazaar

The menu for this food attraction features eight varieties of noodles that Momofuku Ando encountered during his travels in search of ramen's origins. Enjoy the noodle culture that has spread to every corner of the world in an ambience that is like an Asian night market.

------------------------

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!

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Alabama Governor Robert Bentley speaks at an announcement that Reliance Worldwide Corporation plans to create 130 jobs over five years at Cullman City Hall on Monday, Sept. 8, 2014. The Alabama facility, operating as Cash Acme, will feature new robotic and high-tech plastic and brass manufacturing processes. It also will include a research and development center and the SharkBite Training Academy. The SharkBite line is a push-to-connect system that allows plumbers to join copper, CPVC or PEX pipe without soldering clamps, unions or glue. Cash Acme produces valves, regulators and piping at an existing Cullman manufacturing facility. The company now employs 170 people in Cullman.

(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.

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Handling all types of load carriers.

(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 goods on display are made by hand, in a city that was entirely made by hand a thousand years ago and survives into the 21st century as a lving museum.

The raw material for these crafted goods is the discard of a sophisticated manufacturing process that makes tires.

Visitors on tires from afar have no use for these goods but they often wonder what's to become of the mountains of discarded tires that their countries produce.

The craftsman's livelihood depends on thie waste.

TomyTec series. This Prelude includes extra accessories like a rear spoiler and rear view mirrors that has to be installed. I don't understand why they couldn't been added during the manufacturing process.

© 2009 g d tошиѕнеиdе. All Rights Reserved.

Casa Das Fontes em Conímbriga / House of the Fountains at Conímbriga (On Black)

— Pax Deorum, by Enya

In taking possession of the oppidum, the Romans turned [Conímbriga] into a fine city at the end of the 1st-cent. BC, expanding to the North and West as far as the boundary marked by a valley which runs along this side and which a city wall would emphasize.

From the social point of view, the city flourished under the Romans as its inhabitants integrated into the political life of Lusitania and of the Empire in general; from the economic point of view, [it flourished] with the development of new manufacturing processes and arts and with the intensification of the exploitation of farming the land. From [an urban] point of view, grandiose monuments, new and imposing residences, served by a local school of mosaicists, created an urban centre of unique characteristics.

— from the brochure "Museu Monográfico e Ruínas de Conímbriga"

I had a dream the night before last that I found a job very quickly after returning home, and that I was working once again (albeit as a contractor) for my previous employer. That probably wouldn't be too bad, although, as I recall, I wouldn't be able to return to work for them until three months have passed. Company policy. I say it wouldn't be too bad because when I did work for them as a contractor, my pay was higher, it was never screwed up, my taxes were always correct, and I had health benefits. They weren't the best benefits, but I at least had benefits. I didn't have any vacation time, per se, but I could take time off without pay, which is exactly what I did at the end of my contract the last time. I simply made sure I'd saved up enough money 1) to pay for my vacation (for the flight and all incidental expenses) and 2) to pay for my bills during my absence. That was exactly how I financed my first trip to Portugal, because it was time off without pay.

O, to work again for an employer who has at least some basic understanding of accounting, and who won't fuck up my pay! What bliss that would be! LOL!

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

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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!

Banksy Project

Screen printing their laser cut stencils produced using computer aided design and manufacture processes.

Great results....Mrs Lee is really proud of you!

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

There's no better way to understand the manufacturing process than to immerse yourself in it. At Just In Time, you can try your skills on an automotive assembly line. Working with a team, you must develop a strategy for supplying parts, assembling the vehicle and inspecting the work. An electronic display monitors your progress. This is part of the Museum's new KidZone.

(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.

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5) Rich color available, nice appearance

Kinds of PVC ceiling profile:

1, Top angle

2, Inside

3, Outside

4, H-JOINT

5, F-joint

Performance Is Everything

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Vemma THIRST is specifically engineered for athletes of all ages, from children to professionals, who are serious about their hydration, sustaining their workouts, help protecting their bodies and enhancing their health.* This nourishing sports drink alternative is also beneficial for anyone who needs to rehydrate in hot climates or high altitudes.

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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!

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040

Friday, December 8th, 2017

Fortune Global Forum 2017

Guangzhou, China

8:00 AM–9:20 AM

SMART MANUFACTURING AND THE INTERNET OF THINGS

Around the world, factory floors and assembly lines are becoming highly automated, combining human ingenuity with data and technology to revolutionize product and productivity outcomes. As the notion of a “factory of the future” continues to evolve, how are companies incorporating “smart” and connected products into their manufacturing process? From sensors and robots to 3D printing and green technology, global companies are experimenting with a variety of methods to streamline, scale, and sustain their business. Here in China, manufacturers have been asked to deliver on the nation’s “Made in China 2025” strategy and are aggressively pursuing their own strategies to become smarter, greener, and more efficient. As these changes take hold, what are the implications for those doing business in China and for supply chains worldwide? And how are companies redeploying and reeducating their workforces as traditional factory jobs become automated and the need for technically proficient talent increases?

Hosted by The City of Guangzhou

Börje Ekholm, President and CEO, Ericsson Group

Till Reuter, Chief Executive Officer, KUKA

Tony Tan, Partner, Shanghai Office, McKinsey & Company

Wang Wenyin, Chairman, Amer International Group

Shoei Yamana, President and CEO, Konica Minolta

Zhang Jing, Founder and Chairman, Cedar Holdings Group

Moderator: Adam Lashinsky, Fortune

Photograph by Vivek Prakash/Fortune

(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.

Source: livinghistories.newcastle.edu.au/nodes/view/52888

Mr Norrie Ayton, Clerk of Works, and Mr Lionel Wisby inspect the site if the main building for the Hunter Technology Development Centre.

This photo appeared in the News, Volume 13, Number 3, 16 to 30 March, 1987. The text was:

"Centre to stimulate industies under way

The Hunter technology Development Centre –an independent project dedicated to the improvement and diversification of Region’s industrial base for the creation of more jobs –is being built in the University’s grounds.

A building form which the centre will initially operate has been almost completed at the Faculty of Engineering and site clearance preparations for the much larger main complex have been undertaken adjacent the Kintaiba Community Child Care Centre.

The two projects required funding of approximately $5,000,000 being provided by the Federal and New South Wales Governments through the Steel Regions and Advanced Technology Programmes. An allocation of 1,000,000 for equipment is included.

Mr Lionel Wisby, Director of the Hunter Technology Development Centre, sees the centre as stimulating existing and new companies and individuals to develop new product and goods for export and providing a technological resource and consulting base for the region.

‘There is a huge range of venture capital in Australia and when this is linked with technological skills, such as those available at Newcastle University, it usually results in successful commercialisation’, he said.

The centre’s initial administration will be carried out in the annexe to the Faculty of Engineering, a building costing $500,000 with 750 square-metre floor area. Mr Wisby describes it as ‘the centre’s eventual hardware area’, because it will house machines and prototypes of manufacturing processes.

He is looking forward to TURNA Ltd., the University’s research and education consultancy, participating actively in various co-operative ventures with the centre.

The overall programme for the development of the $3,000,000 main complex embodies:

•The provision of an entrance in Rankin Drive, and a car park with access from the University.

•The erection of a two-story building with 2,750 square-metres floor space

•The division of the building into areas for offices and facilities, conference and meeting rooms, computing and data processing facilities, audio-visual facilities, exhibitions, quality assurance, an advanced manufacturing centre, incubator and research laboratories, an information service, consultant s’ offices and other uses, including possibly an atrium for environmental research.

‘People wanting to set up commercial enterprises will be able to obtain ‘incubator space, interact with each other’s ideas and gain technology skills,’ Mr Wisby said ‘We’ll even assist them to obtain finance and learn about marketing’.

Asked for comment on the University’s role in the project, the Director said it was up to the staff to participate or not, in the Centre’s functions, but if they wanted to ‘walk the extra mile and work to turn the Hunter Region and Australia around economically’ he was pleased to co-operate."

This image was scanned from a photograph in the University's historical photographic collection held by Cultural Collections at the University of Newcastle, NSW, Australia.

If you have any information about this photograph, or would like a higher resolution copy, please contact us.

Everything about this particular card is defective, which is why I ended up with a board I helped develop that cost $14,000 retail at the time. The board got offset in the manufacturing process and as a result many of the integrated circuit chips were not quite placed right. The removable flash module quit working. And the multi-mode optical fiber shown in later photographs had been damaged. But it's a great example of a complex embedded system. Later revs of this card were called the TN2305. Single mode fiber versions (which could transmit data across many kilometers without amplification) had other part numbers. Recently one of these now-discontinued boards was sold used for $30. High technology is like that. Circa 1998.

(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.

Mutation #1 is a sculpture stemming from digital creative and manufacturing processes and realized via 3D printing. It is the eruption of a 3D wireframe into reality. It is also an "Ikea hack", its size enabling perfect insertion into the famous Expedit bookcase. Once inserted, the sculpture customizes the bookcase by giving it a futuristic look.

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hugoarcier.com/en/mutation-1/

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Photo : Sarah Zhiri

(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.

www.lcrapid.com/manufacturing/

With our all-round low-volume manufacturing services such as plastic injection molding and metal pressure die casting, LC Rapid is able to produce parts in low volume quantity (100,000 units or fewer) effectively and efficiently. Low volume manufacturing is an increasingly popular choice in many industries, allowing for an inexpensive expenditure in tooling while verify the design in markets quickly, meet the requirements of customization, and bridge the gap between initial prototypes and mass production. If you are looking for a supplier for your next cnc projects, please contact our LC Rapid professional team, we are the perfect low volume manufacturing company for all your needs from prototyping to large scale production.

Description of High Mix Low Volume Production

Small volume manufacturing is commonly used in a wide range of industries when you need to produce the products 100, 000, 1,000 or even 100. Understand the fabrication volume and choose a suitable manufacturing process and rapid manufacturing technologies help you perfect your designs at an early stage, test the pilot market quickly, and limit the cost in tooling and setup.

Advantages of Small Volume Production

Bridge the gap between prototype and mass scale production.

By delivering products effectively without the long lead time, you will bring your product to market quickly.

Reduce tooling cost without compromising on quality.

Decrease the cashflow stress.

Address the need for faster design changes.

Manufacturing Material

CNC Machining

CNC refers to removing raw materials with a Computer Numerical Controlled machine. LC Rapid offers a broad spectrum of CNC machining services such as CNC milling, CNC turning, wire EDM and etc. With our latest multi-axis CNC machining center, we produce high quality metal and plastic one-off prototype and low-volume production parts. We also fabricate hard tools for Plastic Injection Molding and Metal Pressure Die Casting processes. CNC machining is the perfect choice for clients who require the parts with a high degree of accuracy, cosmetic surface finish, a great level of complexity.

Pressure Die Casting

Pressure die casting describes the process of creating parts by forcing molten metal into machined molds (also called dies or tools) The die casting is the most cost-effective process for produce large quantities of metals parts in aluminum, zinc, and magnesium with excellent surface finish and complex geometry. LC Rapid is able to produce dimensional accurate, durable production parts through our die casting facilities. Our integrated manufacturing capabilities allow us to offer mold tool making, die casting, machining, different surface post finishing options in rapid turnaround, taking your project from concept design to full production in an accelerated time frame.

Injection Molding

Plastic injection molding is a manufacturing process to produce parts and prototypes by filling heated plastic into a mold chamber to create parts. LC Rapid is an expert in producing high-quality plastic injection molded parts and mold tools in China. Our custom injection molding manufacturing abilities can ensure you receive all-round services ranging from rapid mold manufacturing, high or low volume injection molding, multi-cavity tooling, insert molding, over molding, and a variety of polishing and texturing.

Sheet Metal Fabrication

Sheet metal fabrication is the process of forming parts in different shapes from a metal sheet. Our latest sheet metal fabrication facility includes laser cutting/ turret punching, bending, rolling, stamping, CNC machining, welding and a wide range of surface finishing. LC Rapid custom sheet metal services offer a cost-effective and on-demand solution to meet individual needs, ranging from simple bent metal prototyping of enclosures, chassis, clips, bracket and other formed metal fabrication parts, to high volume production runs of complex assemblies. We embrace technology to make high quality sheet metal parts for a wide variety of industries, such as consumer goods, electronics, automotive, telecommunication, medical, electronics.

Aluminum Extrusion

Extrusion is a manufacturing method to transform Aluminum alloys to into specified cross section quickly and repeatedly. LC Rapid is able to produce low volume manufactured products in rapid turnarounds and competitive cost as it is easier and more cost saving to manufacture the tooling of extrusion than the tooling of injection molding or pressure die casting. The aluminium extrusion parts are mainly used in industries such as communication, electronics, military, aerospace, etc. We can provide extra value added fabrication services, such as CNC machining, bending, laser engraving, punching, and wide arrays of surface finishing services.

Manufacturing FAQ

What is unique about the LC Rapid’s low-volume production services?

We have the knowledge and the capabilities to meet our customers’ needs. Our teams combine innovative engineering, design expertise, state-of-the-art facilities and rigorous quality-control standards to deliver a superior quality product. The services include product design, custom tooling, plastic injection molding, sheet metal fabrication, aluminum extrusion, finishing and CNC machining. Also, we don’t set minimum order quantity or minimum order value. You can order any part from 1 up to 100,000+.

What materials can be selected for LC Rapid’s low-volume production service?

We work with all common metal materials that available on the market. From stainless steel, mild steel, aluminum, magnesium, copper, and brass. We also stock a wide variety of commercial plastic resins. Plus, we accept customer-supplied material for manufacturing as long as it fits with our machine capabilities.

What are LC Rapid’s quality management system and processes to enhance customer satisfaction for rapid prototyping services?

There are several factors that help in offering great quality assurance in custom jobs. First, all incoming raw material for manufacturing will be inspected. Next, we perform a comprehensive in-process quality control processes to verify safety and functionality. At LC Rapid, we are proud of setting up a vitally important SOP of quality control process to consistently ensure all products created with high levels of precision. For customers who can’t visit our facilities in person, we are glad to take detailed pictures and video files showing all production steps.