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SLS 3D printing service

Source high-quality parts for prototyping and production easily using selective laser sintering (SLS) 3D printing. Select from industrial-grade materials and a broad range of surface finishes. Our standard lead time is just 3 business days.

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What is SLS printing?

Selective Laser Sintering (SLS) is an industrial 3D printing process that is ideal for manufacturing end-use parts. In SLS, a laser selectively sinters polymer powder particles, fusing them together and building a part layer-by-layer. With some of the largest print beds, SLS machines can produce functional plastic parts with isotropic mechanical properties for detailed prototyping or low-volume production of end-use parts.  SLS is a cost-efficient production method, which our customers regularly choose for the most complex parts and those requiring extensive customization.

Learn more about SLS 3D printing

SLS capabilities

Maximum build size Standard lead time Dimensional accuracy Layer thickness Minimum feature size
395 x 500 x 395 mm (15.53" x 19.68" x 15.53") 3 business days ± 0.3% with a lower limit of ± 0.3 mm (± 0.012 in) 100μm 0.5 mm (0.0196”)

SLS materials

SLS 3D printing uses robust powder materials that are ideal for functional prototyping and low- to-medium volume production of end-use parts.

Material Color Resolution Tensile strength Elongation at break Heat deflection temperature Application
Nylon (PA 12) White, dyed black 100 μm 41-50 MPa 11-36% 146-180 °C Prototypes, detailed and complex parts, fully functional models, and end products.
Glass-filled Nylon (PA 12)(US only) Off-white 100 μm 30-48 MPa 6.3-9.3% 152-179 °C Enclosures and housings, jigs, fixtures, tooling

SLS surface finishes

Improve the mechanical properties and aesthetic features of your SLS 3D-printed parts with these post-processing options.

SLS nylon as-printed white
As printed

Typically white or stone gray, smooth surface, powder texture, without visible layers.

SLS nylon dyed black
Dyed (black)

Dyed black by immersion in a warm color bath. The color penetration reaches a depth of about 0.5 mm and covers all surfaces.

Close up image on SLS tumbled part in dyed black colour
Tumbling

The parts are placed in a tumbler that contains small ceramic chips, gradually eroding its surface down to a polished injection molding-like finish.

How SLS stacks up against other 3D printing technologies

Materials Price Dimensional accuracy Strengths Build volume Layer thickness Min. feature size
FDM 5 $ ± 0.5% with a lower limit on ± 0.5 mm Low cost, wide range of materials 500 x 500 x 500 mm (19.68" x 19.68" x 19.68") 100-300μm 2.0 mm (0.0787’')
Industrial FDM 6 $$$$ ± 0.3% with a lower limit of ± 0.3 mm (± 0.012") High level of repeatability, engineering grade materials 406 x 355 x 406 mm (15.98” x 13.97” x 15.98") 100-330μm 2.0 mm (0.0787’')
Prototyping SLA 8 $$ ± 0.3% with a lower limit of ± 0.3 mm (± 0.012") Smooth surface finish, fine feature details 145 × 145 × 175 mm (5.7" x 5.7" x 6.8") 50-100μm 0.2 mm (0.00787’')
Industrial SLA 3 $$$ ± 0.2% with a lower limit of ± 0.13 mm (± 0.005") Smooth surface finish, fine feature details, big print area 500 x 500 x 500 mm (19.68" x 19.68" x 19.68") 50-100μm 0.2 mm (0.00787’')
SLS 2 $$ ± 0.3% with a lower limit of ± 0.3 mm (± 0.012”) Design flexibility, supports not required 395 x 500 x 395 mm (15.53" x 19.68" x 15.53") 100μm 0.5 mm (0.0196”)
MJF 2 $$ ± 0.3% with a lower limit on ± 0.3 mm (0.012’') Design flexibility, supports not required 380 x 285 x 380 mm (14.9’’ x 11.2’’ x 14.9’') 80μm 0.5 mm (0.0196”)

Manufacturing standards for SLS 3D printed parts 

We manufacture your custom parts according to strict manufacturing standards and ensure all parts and processes adhere to the Protolabs Network Standard. A thorough verification of these requirements is included in our inspection report that we ship with every order. 

  • After printing, parts are bead blasted and then air blasted to get rid of the excess powder on the surface. 

  • Additional post-processing can be done to improve part’s appearance, such as dyeing, vapor smoothing or tumbling.

Advantages and drawbacks of SLS 3D printing

Example of SLS printed part
Advantages
  • No support material is needed

  • Excellent layer adhesion

  • Fast printing process for functional, durable prototypes or end-use parts

  • Materials have good mechanical properties

Example of SLS printed part
Drawbacks
  • As-printed parts are rough to the touch due to surface porosity

  • SLS is prone to shrinkage and warping, especially on long, thin parts

Design guidelines for SLS

The table below summarizes the recommended and technically feasible values for the most common features encountered in SLS 3D printed parts.

Read more about how to design for SLS 3D printing

Feature Recommended size
Unsupported walls 1.0 mm (0.040 in)
Supported walls 0.8 mm (0.031 in)
Minimum detail size 0.8 mm (0.031 in)
Minimum hole size 1.0 mm (0.040 in)
Moving parts 0.5 mm (0.020 in)
Assembly clearance 0.4 mm (0.016 in)
Maximum wall thickness 20 mm (0.8 in)

More resources for SLS 3D printing

Learn more about how SLS 3D printing works and how to design the best parts for this additive manufacturing technology.

FDM 3D printed part in FDM process
FDM

Fast & affordable prototyping

  • Dimensional accuracy of ± 0.5% with a lower limit: ± 0.5 mm

  • Lead times from 1 business day

See our FDM services
MJF 3D printed part in MJF process
MJF

Functional prototyping & low-run production

Dimensional accuracy of ± 0.3% with a lower limit of ± 0.3 mm (± 0.012")

See our MJF services
SLA 3D printed part in SLA process
SLA

Visual prototyping

Dimensional accuracy of ± 0.3% with a lower limit of ± 0.3 mm (± 0.012")

See our SLA services