Azoth, a metal contract manufacturer in Michigan, has a team with experience rooted in sinter-based additive manufacturing. Azoth enables mass production of small complex parts throughout the automotive, defense, medical and consumer goods industries and helps customers transition from alternative manufacturing methods like machining, investment casting and metal injection molding (MIM) in order to implement the benefits of additive manufacturing.

Azoth believes metal binder jet technology is the ideal 3D printing method for manufacturing small, complex metal components and helps manufacturers create efficient digital inventories through its Take One Make One (TOMO) strategy. Its team helps manufacturers plan for a component's lifecycle and find where 3D printing qualified parts on-demand makes sense—from prototype and production to replacement and legacy part strategies.

But to which standards does the technology operate and how is the process qualified?

What does the process flow of a binder jet part look like?

Does the 3D printing serve as a compliment to traditional manufacturing by getting products to market faster or is it competitive for the production of smaller-volume complex jobs?

What are the benefits over traditional manufacturing?

Join Desktop Metal for expert insights from Azoth to learn how parts are optimized for additive manufacturing, what tolerances are achieved and what it takes to use binder jetting for volume part production. Learn firsthand from a Desktop Metal user on how they share their expert insights.

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