International
26.04.2024

“Live Wire” to Innovative Production of Vehicle Components in WAAM Process

“Live Wire” to Innovative Production of Vehicle Components in WAAM Process

At the Additive Manufacturing Campus in Oberschleißheim, the BMW Group has a “live wire” to an innovative, additive production process for metallic vehicle components and tools. In wire arc additive manufacturing (WAAM), a wire made of aluminium or similar is melted by an arc. Then a software-controlled robot stacks a large number of welding seams with precision, until the complete component is finished. Because the pressure means that layer by layer there is no need to pay attention to demouldability, hollow structures with an optimum ratio between rigidity and weight are possible. The components can be lighter and more rigid than comparable die-cast parts currently manufactured in series production. They can also be produced more sustainably thanks to lower energy requirements and less material waste. BMW plans to use components manufactured using WAAM in BMW Group production vehicles.

The WAAM process is particularly suitable for large components

The large width and height of a single welding seam allows for fast production of components using WAAM. Compared to laser beam melting, which is already used in prototype and small series production at the BMW Group, WAAM is particularly suitable for larger components. The typical wall thicknesses are well suited to components in the body, drive, and chassis areas. However, tools and devices can also be manufactured using this high-tech process, which is also used in the aviation industry.

Development at the Additive Manufacturing Campus

The BMW Group is trialling this process at the Additive Manufacturing Campus in Oberschleißheim, where they have pooled production, research, and training in this area under one roof. BMW Group employees have been focussing on the WAAM process, also known as build-up welding, since 2015. A WAAM cell for the production of test components has been in use since 2021. One of these example applications is a suspension strut support, which, in extensive testing on the test bench, is being compared with the series production component made from aluminium pressure die-casting. “In this early stage it is already clear that the WAAM process can result in lower emissions in the production process. The lower weight of the components, their advantageous material usage ratio, and the option to use renewable energy means the components can be produced more efficiently,” said Jens Ertel, Head of BMW Additive Manufacturing. The next stage of development on the road to series production is testing components in the vehicle, which will start in the foreseeable future.

The wider welding seams in the WAAM process mean that the surfaces of the components are not smooth, but slightly rippled and must be finished in critical areas. However, BMW Group engineers were able to demonstrate that WAAM components can be used for high loads, including cyclical loads, even without post-treatment of the surface. Optimised process parameters are crucial for ensuring durability directly from production, so the combination of welding process and robotic path planning must be optimally coordinated.

Configuration with generative design and algorithms

To make optimum use of the components produced in the WAAM process, the combination of the manufacturing process and a general new component design is paramount. To this end, the BMW Group continues to accelerate the use of generative design. Here, the computer uses algorithms to design optimised components based on the specific requirements. These algorithms are developed in close collaboration with interdisciplinary teams and are in part inspired by evolutionary processes in nature.

© BMW

As with bionic structures, the first step is to use only the material that is actually required for the topology of the component, and during fine-tuning in the second step, the component is reinforced only where necessary. This ultimately results in lighter and more rigid components as well as greater efficiency and improved vehicle dynamics. “It’s impressive to see how WAAM technology has developed from research to become a flexible tool for not only test components but also series production components. The use of generative design methods enables us to make full use of design freedom and thus the potential of the technology. That was unthinkable just a few years ago,” said Karol Virsik, Head of BMW Group Vehicle Research.

Production processes can complement each other

Different additive production processes are not necessarily in competition with each other, rather they should be viewed as complementary. For example, laser beam melting will continue to be more advantageous than the WAAM process when it comes to the highest level of detail resolution. In terms of the possible size of the component and the deposition rate, however, wire arc additive manufacturing is superior. The BMW Group is initially planning centralised WAAM production of components in Oberschleißheim, in the future, production at other locations and the use of the technology by suppliers is also possible. Further, it would even be conceivable to produce individual components directly on the assembly line using this process and to manufacture different parts without new tools, simply by changing the software. Sustainability can also be further improved by increasing the use of recycled metals.

(Source: BMW Press Release)

Schlagworte

Additive ManufacturingAMWAAM

Verwandte Artikel

19.12.2024

Versatility and flexibility during automated welding

Be it in rolling stock construction, in the production of automotive parts, or in container and pipeline construction, the iWave increases productivity in TIG welding in...

Additive Manufacturing AI AM CMT Cybersecurity MIG PPE TIG Welding Wire
Read more
08.12.2024

3D-Printer for Micro Applications

Nano Dimension, a supplier of Additively Manufactured Electronics (AME) and multi-dimensional polymer, metal & ceramic Additive Manufacturing (AM) 3D-printing solutions,...

Additive Manufacturing AM
Read more
07.12.2024

Industrial-Level 3D-Printer now Available in Europe

Impossible Objects, Inc., has announced that its flagship high-speed 3D-printer is now available to European customers.

3D-Printing Additive Manufacturing AM
Read more
25.11.2024

Additive Manufacturing as a Driver of the Future

Additive Manufacturing (AM) is transforming the manufacturing landscape, including in the welding industry. Marvin Keinert, Dr. Simon Jahn and Markus Langer highlight the...

Additive Manufacturing AM DED Directed Energy Deposition Manufacturing
Read more
18.11.2024

"SCHWEISSEN & SCHNEIDEN" 2025: "Join the Future"

The excellent booking status for the world’s leading trade fair in welding, cutting, and coating highlights the event's status as an essential platform, promising a highl...

AI AM Automation CAD CAM CNC Coating Cobots Collaboration Consumables Cutting Cybersecurity Digitalization DVS DVS e. V. Event Forming Industry Innovation International IT Joining MAG Manufacturing MIG Networking Partnership Quality Control Robots Social Media Sustainability TIG Trade Fair Transformation Underwater Welding Welding
Read more