3D metal printer

3D metal printer

February 22, 2021

Chiron America

https://chiron.de/en

The CHIRON Group has expanded its core competencies – metalworking and automation – to include additive manufacturing with the compact Chiron AM Cube, an easy to use 3D metal printer for manufacturing large and complex components. It is suitable for coating and repairing components up to 500mm in size, for cylindrical components up to 1m in length and for the near-net-shape production of semi-finished products. The AM Cube can be provided with up to 3 deposition heads with patented, hardwired energy, material, and data supply. Max. workpiece dimensions are: 3-axis: 1,000mm x 400mm x 500mm; 4-axis: 300mm x 1,000mm; and 5-axis: 500mm x 500mm.

Automatic deposition-head changing permits wire or powder feedstock material for 3D printing or coating, internally or externally. Its modular design means the AM Cube can be provided as a 3-axis, 4-axis, or 5-axis system.

Unlike other 3D metal printers, the deposition head on the CHIRON Group's AM Cube can be changed during an active printing/coating process. This allows different process requirements to be fulfilled: For example, one deposition head can be used to achieve a high-quality surface finish, while another can be used to achieve a high deposition volume. The automatic head change function enables these properties to be combined in a single workpiece. The AM Cube has three deposition heads in total and additionally allows the deposited material to be changed. Wire and powder can be deposited in different phases of the same manufacturing process.

Like CHIRON Group CNC machining centers, the AM Cube uses a conventional, Cartesian coordinate system. Operation and programming are both intuitive. The system is programmed either using a standardized DIN ISO code or, for complex components, using a CAD/CAM software tool. All aspects of the system can be controlled using tried-and-tested Siemens components, from hardware to the HMI through to programming of the AM Cube.

With laser metal deposition, a feedstock material (Fe/Ni/Co-based) is melted using a laser beam and fused to the substrate (steel or nickel-based alloys) by metallurgical bonding. One of the benefits of this process is that it results in lower thermal loading – it is also excellent for repairing damage, reinforcing components at selected points, and restoring the original geometry of components by means of material deposition.

With wire-based laser metal deposition (LMD-W) technology, the laser beam melts the base material – in this case wire – and the melt fuses together and solidifies. This enables complex geometries to be created, as the workpiece is built up layer by layer. One significant advantage of wire is its high deposition rates. The laser is flexible and suitable both for fine surfaces and large build-up rates. The material feed in the AM Cube is in the form of a coaxial wire feed that works in all welding directions. The material is fed in clean and 100% of it is utilized. To prevent oxidation, the deposition process is performed with shielding gas in a sealed system.

Powder-based laser metal deposition (LMD-P) process may also be used on the Chiron AM Cube. In this case, the feedstock material that is fed to the weld pool (otherwise known as "melt pool") is in powder form – ideal for thin coatings. The coaxial nozzle means that this process works in any welding direction.