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We are Team DM. We exist to deliver Additive Manufacturing AM 2.0 technologies, materials, and applications that enable mass production.
Platforms
Resources
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316L stainless steel
Characterized by its corrosion resistance and good mechanical properties at both high and low temperatures, 316L is a fully excerpt ends here.
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Ti64 titanium alloy
An alloy of titanium, aluminum and vanadium, the material properties of Ti-6Al-4V (Ti64) - particularly its high strength-to-weight ratio and corrosion resistance - make it an ideal material for a wide variety of high-performance applications.
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Copper
Copper is a soft, ductile material known for its excellent thermal and electrical conductivity, making it an ideal material for a variety of industries, from heavy industry to consumer products.
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17-4 PH stainless steel
Characterized by its combination of strength, hardness, and corrosion resistance 17-4 PH is a stainless steel ideal for a variety of applications.
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4140 Chromoly Steel
One of the most versatile steels, 4140 is characterized by its toughness, abrasion resistance, and impact resistance, making it a great all-purpose steel for industrial applications.
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H13 Tool Steel
Characterized by its exceptional hot hardness, abrasion resistance, and stability in heat treatment, H13 is a tool steel widely used in both hot and cold work applications.
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Canopy Aerospace is unlocking the space economy with binder jet 3D printing
Canopy Aerospace leverages binder jet 3D printing to revolutionize thermal protection systems for space, defense, and automotive industries. Learn how this innovative approach reduces lead times, eliminates traditional tooling, and enables flexible production of complex ceramic components.
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Unique and Highly Customized Luxury Watches
Exotime and Tamau Italia use metal binder jetting technology to challenge conventional watchmaking and efficiently produce complex watch parts. Learn how this cutting-edge additive manufacturing technology enables easy, fast, and cost-effective production of innovative luxury watch cases.
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BYU uses the world's most researched binder jetting platform to study the fundamentals of the metal 3D printing process
While many research labs are dedicated to new material development or post-processing optimization, the team at Brigham Young University studies the printing process itself in steps like the spreading of the powder layers. The InnoventX is the perfect tool with the flexibility to meet the needs of the team's research.
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