Resources
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Customer Story: Azoth uses office-friendly Studio System to deliver precision metal components
Azoth in Ann Arbor, Michigan, started their additive manufacturing journey with the Desktop Metal Studio System™. The company still uses the office-friendly Studio System today for one-off and short run volume production of metal components.
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AmPd Labs Adopts Metal 3D Printing with Live Sinter™
The sintering process to densify binder jet 3D printed parts can cause shrinkage and distortion. Live Sinter advanced simulation software from Desktop Metal predicts and corrects errors when sintering this fork mechanism. Previously a 7-piece assembly, AmPd Labs consolidated the design to 3D print the gaming equipment component as one stainless steel part.
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Live Suite™: Software package to seamlessly manage your 3D printers, accessories, and processes
Live Suite is a package of premium software applications with all-new functionality for users of our Additive Manufacturing 2.0 systems that integrates software across our Team DM brands into one easy-to-use cloud-based suite.
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Live Monitor™: Access system status and statistics from any web browser, anyplace, anytime
Live Monitor™ provides real-time information about Desktop Metal 3D printers* and furnaces that is actionable, traceable, and helps to improve efficiency and print results.
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Customer Story: 3D Energy Digitizes Inventories with the Desktop Metal X-Series
Binder jetting provided an opportunity to produce a labyrinth cage, a critical valve application, faster and more optimized than with traditional brazing methods. Metal 3D printing allows companies to operate more efficiently with digital inventory strategies.
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Azoth Customer Story: Production-Qualified Binder Jet Metal 3D Printing
Azoth in Ann Arbor, Michigan, focuses on sinter-based additive manufacturing to enable mass production. The company uses the Desktop Metal Shop System for high volume binder jet 3D printing of end-use metal parts. Customers utilize its Take One Make One digital inventory and establish Production Part Approval Process for 3D printed metal parts.
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DSB Technologies Drives Metal Binder Jetting into Production with Desktop Metal X-Series Lineup
DSB has adopted Desktop Metal’s complete X-Series metal binder jetting lineup at its Wisconsin headquarters, which processes more than eight million pounds of powder into parts annually with both traditional and additive technologies. DSB is now developing and delivering customer parts, scaling from development to serial production with the InnoventX, X25Pro, and X160Pro for a range of metals, including 316L and 17-4 PH stainless steels, 4140 low-alloy steel, and M2 tool steel.
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Easy material changes with the Studio System
In this video, Matt Barbati walks through how to change materials in the Studio System metal 3D printer.
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Hot-swappable media cartridges
In this video, Matt Barbati discusses the cartridge design and how it supports a seamless workflow for in-house metal 3D printing.
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Separable Supports™ for easy post-processing
In this video, Dave Belanger explains the advanced, auto-generated support structures designed to simplify post-processing for metal 3D printed parts.
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PureSinter™ Brochure
High Purity. High Efficiency. High Reliability. This all-new vacuum furnace for one-run debinding and sintering features breakthrough premium performance at an affordable price
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Team DM Catalog
Easy-to-use Additive Manufacturing 2.0 solutions for industrial and healthcare production — delivering transformative value
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Team DM Master Material Guide
At Desktop Metal, we offer more than metals now. Our materials library spans virtually every category, from metals and polymers, to ceramics, composites, and even upcycled materials such as wood. In an effort to drive production 3D printing to the masses, our qualified materials are designed to ensure that you can 3D print with success and deliver the high-quality parts you need for end-use production.
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Ceramic 3D Printing with Binder Jetting Guide
Forming technical ceramics the traditional way can be expensive, with long-lead time molds and expensive post-processing, such as precision cutting and grinding. Advanced, high-hardness ceramics often require an ultrahard diamond tool for precision finishing. With the flexibility of binder jetting, however, creating precision technical ceramics, which can be sintered or infiltrated to create ceramic composites, is relatively easy. Virtually any geometry, regardless of complexity, can be created — bringing the many benefits of technical ceramics to new forms and products.
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Partnerships for Additive Manufacturing Production Challenges
Custom programs developed to ensure success, both technically and economically, with our additive manufacturing technologies. Learn more about our seasoned team leaders and program options in this guide.
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