Digital 3D Man­u­fac­tu­ring Strate­gy with Laser Tech­no­lo­gies

“Light Cocoon” is a compact sports car with a bionically designed and additively manufactured vehicle structure, covered with an outer skin made from weatherproof textile material. (Source: EDAG)

“Light Cocoon” is a compact sports car with a bionically designed and additively manufactured vehicle structure, covered with an outer skin made from weatherproof textile material. (Source: EDAG)

Manufacturers are currently required to integrate the increasing number of drive concepts and energy storage systems into vehicle structures. The vehicle bodies of tomorrow, particularly in view of alternative drive systems in small series with lots of different versions, will not only need to be lighter, but above all will also require a highly flexible design. The consequence is an increasing number of vehicle derivatives which demand adaptable bodywork concepts that are economical to manufacture. In the foreseeable future, additive manufacturing could offer entirely new possible approaches.

The EDAG concept car “Light Cocoon” is a compact sports car with a bionically designed and additively manufactured vehicle structure, covered with an outer skin made from weatherproof textile material. The car was unveiled in March 2015 at the Geneva Motor Show and in September 2015 at the International Motor Show IAA in Frankfurt. It is intended to polarize opinions among designers and breaks open existing thought patterns in vehicle design. The bodywork structure embraces bionic patterns and translates them into a lightweight bodywork structure. A concept car that highlights sustainable approaches and at the same time embodies the technological potential of additive manufacturing.

In a joint project, EDAG Engineering, Laser Zentrum Nord, Concept Laser (all Germany) and the BLM Group (Italy) created the bionically optimized spaceframe produced by hybrid manufacturing to highlight a new way in which a bodywork concept that is adaptable and can be manufactured flexibly can be delivered in order to make the increasing range of different vehicles manageable thanks to the large number of different drives and load stages. Additively manufactured bodywork nodes and intelligently processed profiles are combined.

The NextGen spaceframe is a combination of additively manufactured 3D nodes and intelligently processed steel profiles. The nodes can be manufactured on site for the particular version “just in sequence” (JIS), along with the profiles, which are cut to the appropriate shape and length initially using 3D bending and then by employing 2D and 3D laser cutting processes. The focus is on joining together individual components to create a hybrid structure in order to produce topologically optimized structures that are not yet possible at present.

The method used is laser welding, which is characterized by intricate welded seams and low thermal input. The components are welded together with a fillet weld on the lap joint. The geometric basis for this is the complete shoeing of the profiles all the way round, and this is also produced on demand via additive manufacturing through 3D measuring of the profiles. This joint enables circumferential welding to produce a connection over a long length along with excellent prepositioning of the components. The profiles are automatically aligned and fixed in place by the node. A high-brightness laser with robot-guided optics is used.

Structures with a basic design inspired by nature are simply more stable and weigh less led to a new approach for the design of the Light Cocoon's outer skin. (Source: EDAG)

Structures with a basic design inspired by nature are simply more stable and weigh less led to a new approach for the design of the Light Cocoon’s outer skin. (Source: EDAG)

In addition, the laser techniques used to produce profiles and nodes can largely be automated in assembly. This concept offers great potential when it comes to the manufacturing cost structure and the possibility of saving time.The additively manufactured nodes can be adapted to reflect each load stage, e.g. by incorporating additional stiffening elements to cater for high load requirements. This means that each version is designed for the optimum weight and function. The hybrid design spans the required distances of the structure with the profiles, while the nodes are used to connect the profiles together. Both elements were optimized using CAE/CAD and guarantee the requirements that are demanded of a bodywork structure.

In the present case, as well as playing a coordinating role, EDAG was responsible for devising and optimizing the spaceframe concept, LZN did the laser welding, the BLM Group undertook the 3D bending and laser cutting, and Concept Laser GmbH performed the additive manufacturing of the nodes. The project could only be implemented successfully thanks to the interdisciplinary collaboration between the complementary partners and the high level of expertise of the individual technology specialists in their specific disciplines.

The spaceframe concept combines the advantages of 3D printing, such as flexibility and the potential for lightweight construction, with the efficiency of proven conventional profile designs. The laser plays the key role in both technologies. The topologically optimized nodes enable the maximum lightweight construction that is possible at the present time, and a high degree of functional integration. Both the nodes and the profiles can be adapted to new geometries and load requirements without any additional outlay. This means that they offer the possibility of designing every single part to cater for the level of loading, and not dimensioning the components to reflect the greatest motorization or load stage, as was previously the case. The basic idea then is to have a node/profile design which can be optimally customized to reflect what the particular model requires. The result is a spaceframe structure with an optimized load path. By employing processes which do not involve much use of apparatus or tools, it will be possible in future to manufacture all bodywork versions economically and with the greatest possible flexibility. (Source: Concept Laser)

Link: “Light Cocoon”, EDAG Engineering GmbH, Wiesbaden, GermanyLaserCUSING technology, Concept Laser GmbH, Lichtenfels, Germany

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