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The high-performance aluminum alloy has been specifically designed for additive manufacturing and is well suited space, aeronautic and automotive lightweight applications.

The hybrid 3D-printed satellite was manufactured using Markforged 3D printers for parts that would be incredibly lightweight, durable and custom to the structure to ensure the satellite remains intact during launch and works properly for its full life span in space.

Windform SL is well suited for the the production of sophisticated, efficient components across various fields, from aerospace to automotive, ensuring light weight without the need to reduce thickness.

The collaboration between All Design Lab and Protolabs led to the creation of a 3D printed tennis racket via direct metal laser sintering, called Hìtëkw. This project not only pushed the limits of additive in terms of design capabilities but revealed how important active communication between customer and manufacturer can be for a project’s success.

Rapid Robotics helps manufacturers get up and running with automation quickly, by providing robots that arrive pretrained and already equipped with tooling which is often 3D printed.

NASA Jet Propulsion Laboratory employs laser powder bed fusion additive manufacturing plus chemical etching to create strong, lightweight lattice structures optimized to protect rock samples from Mars during their violent arrival on earth.

The large-scale thermoplastic polymer printer offers new opportunities for eco-friendly and cost-effective manufacturing for numerous industries, including national security, affordable housing, bridge construction, ocean and wind energy technologies, and maritime vessel fabrication.

The Aheadd CP1 aluminum alloy was developed by Constellium for the needs of additive manufacturing by laser powder bed fusion specifically for high-performance and lightweight applications.

6K Additive’s Nickel 625 powder is being qualified for use in Agile’s A2200 engine to leverage additive manufacturing for engine lightweighting while also delivering tremendous power.

Bio-based flexible EVA (Ethylene Vinyl Acetate) pellets offer sustainable, lightweight, flexible capabilities for large-format additive manufacturing.