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Volkswagen takes first step on road to 3D car production

Volkswagen will use a new 3D printing process to print design elements such as individualised gear knobs in small production series and is pressing ahead with the development of the technology for mass production.

Volkswagen is using the “HP Metal Jet” process, which it claimed to simplify and speed up metallic 3D printing. The biggest advantage claimed: productivity improves fifty times compared with other 3D printing methods and depending on the component.

Together with printer manufacturer HP and component manufacturer GKN Powder Metallurgy, Volkswagen  presented the new process for the first time at the International Manufacturing Technology Show (IMTS) in Chicago.

Dr Martin Goede, Head of Technology Planning and Development, Volkswagen, said: “Automotive production is facing major challenges: our customers are increasingly expecting more personification options.

“At the same time, complexity is increasing with the number of new models. That’s why we are relying on state-of-the-art technologies to ensure a smooth and fast production. 3D printing plays a particularly important role in manufacturing individual parts.”

A Volkswagen vehicle is manufactured from 6,000 to 8,000 different parts. Previous 3D printing processes can, however, only be used for the special production of individual parts or prototypes.

The additive 3D Metal Jet technology from HP enables the production of a large number of parts using 3D printing for the first time – without having to develop and manufacture the corresponding tools.

This significantly reduces the time required to manufacture parts. As a result, the process is now also interesting for the production of large quantities in a short period of time.

“That’s why the new HP Metal Jet platform is an important step into the future for us as an automotive manufacturer, but also for the entire industry. And we look forward to helping shape this development and thus creating further added value for our customers in the future,” Dr Goede added.

In collaboration with HP and GKN, Volkswagen is further developing the technology so that design elements can be printed in a small series at first.

This will be the prerequisite, to be able to produce individualised design parts such as tailgate lettering, special gear knobs or keys with personalised lettering for customers without a great deal of effort. The plan is to be able to offer this kind individualisation proposition to customers as soon as possible.

As early as next year, GKN Powder Metallurgy intends to establish a process chain geared toward automotive production in collaboration with Volkswagen. The first small (design) components are to be used to further develop the technology so that the first structural components for mass-production vehicles can be printed within two to three years.

“A complete vehicle will probably not be manufactured by a 3D printer any time soon, but the number and size of parts from the 3D printer will increase significantly,” explained Dr Goede.

“Our goal is to integrate printed structural parts into the next generation of vehicles as quickly as possible. In the long term, we expect a continuous increase in unit numbers, part sizes and technical requirements.”

The new 3D printing process using the HP Metal Jet process is an additive process in which parts are produced layer by layer using a powder and binder. The component is then “baked” into a metallic component in the so-called sintering process. This differs from previous processes in which powder is melted by means of a laser.

Stephen Nigro, President of 3D Printing at HP Inc, said: “Volkswagen is driving unprecedented innovation as the automotive industry goes through its most transformational era since cars first rolled off the assembly line.

“Together we are engineering and testing solutions for mass-customisation and the creation of higher-performance, lower-cost functional parts. And as electrification ushers in entirely new vehicle architectures, we’re excited to collaborate on future 3D applications such as the lightweighting of fully functional and safety certified metal parts.”

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