Desktop Metal

Import initial truck design into Live Parts.

Define loading conditions and material properties (17-4 PH).

Set manufacturing constraints for 3D printing.

Run generative design to optimize geometry for weight and strength.

Export optimized model and 3D print using Studio System.

Test printed truck for performance and durability.

Design piston head model in CAD software.

Import model into Live Parts.

Optimize for generative design.

3D print various designs using Studio System.

Test prototypes for performance and functionality.

Iterate design based on test results.

Design bracket model and import into Live Parts.

Define loading scenarios and material (17-4 PH).

Optimize geometry for weight reduction.

3D print brackets using Shop System.

Install brackets in industrial machine and test performance.

Customer provides customization requirements.

Design custom part and import into Live Parts.

Optimize geometry and 3D print using appropriate system.

Deliver customized product to customer.

Design new component in CAD software.

Import into Live Parts and optimize for performance.

3D print prototype using metal 3D printer.

Test prototype in vehicle.

Iterate design based on testing.

Prepare upcycled wood material.

Design component for 3D printing with upcycled wood.

3D print using specific printer setup.

Post-process and refine the wood part.

Integrate part into final application.