Azoth 3D collaborates with Incus to deploy the Hammer Lab35, enabling rapid, high-precision metal part production with a 5-7 day turnaround for industries like aerospace and medical.

Azoth 3D, that has redefined sinter based additive manufacturing is now working in collaboration with Incus to add the innovative Hammer Lab35 system, an LMM platform. This development reduces the production lead time to 5-7 days for intricate metal parts. Other these collaborations focus on closing the gap between rapid prototyping and end-use precision manufacturing.

The Hammer Lab35 utilizes photopolymerization technique much like ceramic slurry DLP, achieving outstanding surface finishes and accuracy to feature resolution perfect for complex geometries in aerospace, medical, and automotive fields. Azoth 3D is planning to develop three primary materials: 316L Stainless Steel (resistant to natural environments and chemical media), 17-4 PH Stainless Steel (high strength alloy), and Titanium (durable yet light), perfect for defence and tool making.

“Incus’ LMM technology is transformative,” said Cody Cochran, Azoth 3D’s General Manager. “We’re delivering end-use parts faster than traditional methods, reducing bottlenecks for manufacturers.” Denise Moedder, Incus’ Head of Application Engineering, added, “This partnership aligns with our goal to advance efficient, high-quality additive manufacturing.”

The Hammer Lab35’s deployment also introduces Incus’ LMM technology to the U.S. market, bolstering Azoth 3D’s commitment to cutting supply chain delays. Clients can utilize Azoth’s Smart Quote system, a digital platform offering same-day quotes for uploaded 3D/2D designs, streamlining the production workflow.

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This innovation underscores Azoth 3D’s push to redefine metal 3D printing, merging speed, precision, and material versatility for industrial demands.