Metal 3D Printing with Direct Metal Laser Sintering (DMLS)

Direct metal laser sintering (DMLS) is an industrial metal 3D printing process that builds fully functional metal prototypes and production parts in 7 days or less. A range of metals produce final parts that can be used for end-use applications.

How Does Metal 3D Printing Work?

The DMLS machine begins sintering each layer—first the support structures to the base plate, then the part itself—with a laser aimed onto a bed of metallic powder. After a cross-section layer of powder is micro-welded, the build platform shifts down and a recoater blade moves across the platform to deposit the next layer of powder into an inert build chamber. The process is repeated layer by layer until the build is complete.

When the build finishes, an initial brushing is manually administered to parts to remove a majority of loose powder, followed by the appropriate heat-treat cycle while still fixtured in the support systems to relieve any stresses. Parts are removed from the platform and support structures are removed from the parts, then finished with any needed bead blasting and deburring. Final DMLS parts are near 100 percent dense.

  • 1 to 50+ parts
  • Shipped in as fast as 7 days
  • AS9100 certified
Common Applications
  • prototyping in production-grade materials
  • functional, end-use parts
  • reducing metal components in an assembly

Metal 3D Printing for Production

Improve strength, dimensional accuracy, and cosmetic appearance for end-use metal components with post-processing options like CNC machining and heat treatments.

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NEW: Large Format Metal 3D Printing

We recently added the GE Additive X Line to our fleet of metal 3D printers to build large Inconel 718 parts. Have a project that might be a good fit? Contact us and we can discuss your requirements.

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Metal 3D Printing Design Guidelines

Our basic guidelines for direct metal laser sintering include important design considerations to help improve part manufacturability, enhance cosmetic appearance, and reduce overall production time.


Maximum Dimensions

Normal Resolution 9.6 in. x 9.6 in. x 13.0 in.
Normal Resolution (X Line*) 31.5 in. x 15.7 in. x 19.7 in.
High Resolution 3.5 in. x 3.5 in. x 2.7 in.
Normal Resolution 245mm x 245mm x 330mm
Normal Resolution (X Line*) 400mm x 800mm x 500mm
High Resolution 88mm x 88mm x 70mm
Tolerances and Accuracy

For well-designed parts, tolerances of ±0.003 in. (0.076mm) plus ±0.001 in./in. (0.001mm/mm) for each additional inch can typically be achieved. Note that tolerances may change depending on part geometry.

Layer Thickness

Normal Resolution 0.00118 in.
Normal Resolution (X Line*) 0.00236 in.
High Resolution 0.00079 in.
Normal Resolution 30 microns
Normal Resolution (X Line*) 60 microns
High Resolution 20 microns

Minimum Feature Size

Normal Resolution 0.015 in.
Normal Resolution (X Line*) 0.015 in.
High Resolution 0.006 in.
Normal Resolution 0.381mm
Normal Resolution (X Line*) 0.381mm
High Resolution 0.153mm

*At this time, Inconel 718 is the only material available on our large format, X Line machine

Metal 3D Printing Materials

Material Description Key Benefits


AlSi10Mg is an aluminum master alloy often specified for casting or die casting parts. It is characterized by having an excellent strength-to-weight ratio among aluminum alloys, but it has a lower elongation at break. It has good high-temperature characteristics, corrosion resistance, and fatigue resistance
  • High strength
  • Excellent temperature and corrosion resistance
  • Good tensile, fatigue, creep, and rupture strength

Cobalt Chrome

Cobalt Chrome is a superalloy comprised primarily of cobalt and chromium, and is known for its high strength-to-weight ratio, excellent creep and corrosion resistance.
  • High strength
  • Creep and corrosion resistance
  • Excellent biocompatibility


Copper CuNi2SiCr is an alloyed copper material, which combines good mechanical properties with high thermal and electrical conductivity. This alloy can be used in rough environments where pure copper is not feasible.
  • High thermal and electrical conductivity
  • Good mechanical properties

Inconel 718

Inconel is a high strength, corrosion resistant nickel chromium superalloy used at temperatures of -423F to 1300F. Its high-temperature strength is derived from its ability to create a thick, stable passivating oxide layer at high temperatures.
  • High strength
  • High temperature and corrosion resistance
  • Good tensile, fatigue, creep, and rupture strength

Stainless Steel (17-4 PH)

17-4PH is a martensitic precipitation hardening stainless steel that is known for its hardness and corrosion resistance. Stainless Steel 17-4PH allows for production quality metal parts with the finest features and tightest tolerances in the industry.
  • Heat treated for full hardness and strength
  • High hardness
  • Corrosion Resistant

Stainless Steel (316L)

Stainless steel 316L is used for manufacturing acid and corrosion resistant prototypes, and unique or series production parts.
  • Acid and corrosion resistant
  • Temperature resistance
  • Durability


Ti 6-4 titanium is a workhorse alloy containing 6% aluminum and 4% vanadium. Due to its light weight, high strength, and excellent high temperature and corrosion resistance, titanium is often used for aerospace applications.
  • Light weight
  • High strength
  • Excellent high temperature and corrosion resistance

Post-Processing Capabilites for Metal 3D-Printed Parts

Improve strength, dimensional accuracy, and cosmetic appearance of final metal components with DMLS for production.


  • 3- and 5-axis milling
  • Turning
  • Wire EDM
  • Tapping and reaming

Powder Analysis & Material

  • Traceability
  • Chemistry
  • Particle size and distribution analysis
  • Mechanical coupon testing

Mechanical Testing

  • Tensile
  • Rockwell Hardness
  • Fatigue
  • Vibration

Heat treatments

  • Stress relief
  • Hot isostatic pressing (HIP)
  • Solution annealing
  • Aging

direct metal laser sintering part being processed after 3d printing

3d printing technician measures direct metal laser sintering part with CT scanning


a metal 3D printing technician removes support structures from a DMLS part

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