DMLS – Direct Metal Laser Sintering


EOS - Leader in DMLS Worldwide

EOS manufactures leading-edge Direct Metal Laser Sintering (DMLS) system for the Additive Manufacturing of metal products directly from CAD data. Complex machining in stainless steel, aluminum, Inconel, titanium, cobalt chrome, and others is now a production reality. Previously impossible to machine complex geometry 3d parts create innovative new markets, solves age-old problems, and creates profitable opportunities across the manufacturing spectrum. Strong, lightweight, aerospace parts, complex medical and dental replacement, and tool-free rapid prototyping across all business lines are just a few of the applications.

EOS is driving the 3d manufacturing revolution with their product lineup: 

EOSINT M2 80 Direct Metal Laser Sintering Machine (DMLS) - Additive Manufacturing direct from CAD

EOSINT M 280 Direct Metal Laser Sintering Machine. DMLS Additive Manufacturing direct from CAD

EOSINT M 280  >>> More
As a leading-edge system for DMLS (Direct Metal Laser Sintering) Additive Manufacturing, EOSINT M 280 is the perfect solution for direct, cost-efficient manufacturing of high-quality metal tool inserts, rapid prototyping and end products.

EOSINT M 400 Direct Metal Laser Sintering Machine

EOSINT M 400 Direct Metal Laser Sintering Machine. DMLS Additive Manufacturing direct from CAD

EOSINT M 400  >>> More
DMLS (Direct Metal Laser Sintering) Additive Manufacturing System for the Industrial Production of High-Quality Large Metal Parts.With a building volume of 400 x 400 x 400 mm, EOS M 400 allows the production of large metal parts on an industrial scale – directly from CAD data and with no need for tools.

 

To find out more about EOS Direct Metal Laser Sintering (DMLS) Solutions, or schedule a consultation with one of our sales engineers, call us at (847) 520-4420, or contact us here.

 

 DMLS Videos and Case Studies


Case Study: A group of GE Aerospace engineers demonstrate the incredibly innovative nature of EOS Direct Metal Laser Sintering (DMLS) Additive Manufacturing by rapid prototyping a working desktop 33,000 RPM jet engine!

Rapid Prototyping Direct Metal Laser Sintering (DMLS) Additive Manufacturing direct from CAD Rapid Prototyping Direct Metal Laser Sintering (DMLS) Additive Manufacturing direct from CAD Rapid Prototyping Direct Metal Laser Sintering (DMLS) Additive Manufacturing direct from CAD Rapid Prototyping Direct Metal Laser Sintering (DMLS) Additive Manufacturing direct from CAD Rapid Prototyping Direct Metal Laser Sintering (DMLS) Additive Manufacturing direct from CAD Rapid Prototyping Direct Metal Laser Sintering (DMLS) Additive Manufacturing direct from CAD Rapid Prototyping Direct Metal Laser Sintering (DMLS) Additive Manufacturing direct from CAD

(Click thru images for highlights, or see the entire video from link below)

DMLS Video: GE Jet Engine Video


Case Study: GE Engineers discuss the development and manufacturing of the new generation LEAP jet engines. Providing 15%, better consumption, 25% less emissions, and 75% noise, GE is on track to ship 50,000 in the next few years.  In the video, GE’s engineers discuss the transformational power EOS Direct Metal Laser Sintering (DMLS) Additive Manufacturing has given them in creating complex intakes – by making parts that were previously impossible to manufacture.

DMLS Video: GE Revolutionary New LEAP Engine


Feature Article: Additive Manufacturing surely offers rapid prototyping, reduced weight, and part counts, and creates complex shapes and part features impossible to manufacture with traditional machining, but successful implementation of direct manufacturing takes truly transformational thinking of what can (and what should not) be done with the revolutionary new technology. To find out, we’ve included the remarks in Industry Week from EOS CEO Dr. Hans Langer as he outlines the best path to success with Additive Manufacturing. He outlines how to ensure the correct application, knowledge of material science, and how Additive Manufacturing can be integrated within the conventional production process:

Feature Article: Achieving Success with Additive Manufacturing


EOS Laser Metal Powder Stock List

Laser Metal Powder

EOS Aluminium AlSi10Mg – Light Metal Powder for Motorsports and Aerospace Interior Applications
EOS Aluminium AlSi10Mg/200 °C – Light Metal Powder for Motorsports and Aerospace Interior Applications
EOS CobaltChrome MP1 – CoCrMo Super Alloy Metal Powder for High-Temperature Engineering and Biomedical Applications
EOS CobaltChrome SP2 – CE-Certified CoCrMo Super Alloy Metal Powder for Dental Applications
EOS MaragingSteel MS1 – High-Performance Steel Metal Powder for Tooling and Mechanical Engineering
EOS NickelAlloy HX – Nickel-Alloy Metal Powder for Aerospace and Industry
EOS NickelAlloy IN625 – Nickel-Chromium Alloy Metal Powder for Aerospace, Motorsports and Industry
EOS NickelAlloy IN718 – Nickel Alloy Metal Powder for Aerospace and Industry
EOS StainlessSteel 17-4PH – Highly Abrasion Resistant Stainless Steel Metal Powder for Medical
EOS StainlessSteel CX – Corrosion Resistant Stainless Steel Metal Powder for Tooling
EOS StainlessSteel GP1 – Stainless Steel Metal Powder for Mechanical Engineering and Medical
EOS StainlessSteel PH1 – Hardenable Stainless Steel  Metal Powder for Mechanical Engineering and Medical Technology
EOS StainlessSteel 316L – Corrosion-Resistant Stainless Steel Alloy Metal Powder for Medical, Lifestyle and Aerospace
EOS Titanium Ti64 – Ti6Al4V Light Metal Powder for Aerospace, Motorsports and Biomedical Applications
EOS Titanium Ti64ELI: Light Metal Powder Alloy for Medical and Aerospace
EOS Titanium TiCP grade 2 Metal Powder

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