Rethink ‘possible’

Laser Sintering, also known as selective Laser Sintering (SLS), is among the most versatile and frequently used 3D printing technologies: you can find laser-sintered parts in airplanes, wearables, machine components, and production tools.

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Why choose Laser Sintering?

With no need for support structures, this technology is suitable for interlocking parts, moving parts, living hinges and other highly complex designs. Whether you need fully functional prototypes or a series of complex end-use parts, Laser Sintering’s design freedom serves both. Besides, we make production fast and cost-effective for you by maximizing the available build space in each machine.

Ideal applications for Laser Sintering

  • Prototypes with mechanical properties to rival those of injection-molded parts
  • Series of small components as a cost-effective alternative to injection molding
  • Large and complex functional parts up to 650 x 330 x 560 mm in one piece
  • Personalized manufacturing, the economical production of unique, complex, designs built as one-off products or in small batches
  • Lightweight designs using complex lattice structures

Technical Specifications

Standard lead time

Minimum of 4 working days, depending on part size, number of components and finishing degrees
Minimum of 2 working days for parts with dimensions smaller than 200 x 100 x 100 mm

Standard accuracy

±0.3% (with a lower limit on ±0.3 mm)

Layer thickness

0.12 mm

Minimum wall thickness

1 mm, but living hinges are possible at 0.3 mm

Maximum build dimensions

Dimensions are unlimited as components may be composed of several sub-parts. The build area of our largest machine is 650 x 330 x 560 mm

Surface structure

Unfinished parts typically have a grainy surface but all kinds of fine finishes are possible. Laser-sintered parts can be sandblasted, colored/impregnated, painted, covered and coated

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Ultrasint PA6 MF

  • Strong, stiff, heat- and chemical-resistant polyamide filled with mineral particles
  • Ideal for automotive applications requiring high-performance material
  • Lead time: 10 working days
  • Maximum part dimensions: 340 x 340 x 360 mm
PA 2210 FR

PA 2210 FR

  • Flame-resistant, halogen-free polyamide (PA 12)
  • Suitable for aeronautics & aerospace, electrical & electronic applications
  • Lead time: On demand
  • Maximum part dimensions: 280 x 280 x 550 mm

Polypropylene (PP)

  • Very high elongation at break
  • Tough, production-grade material
  • Lead time: 7?working days
  • Maximum part dimensions: 500 x 500 x 480 mm

PA-AF (Aluminum Filled)

  • Blend of aluminum powder and polyamide powder
  • Resistant to temperatures as high as 130°C
  • Lead time: 4 working days
  • Maximum part dimensions: 400 x 300 x 400 mm
PA 12

PA 12 (SLS)

  • Polyamide
  • Biocompatible and food-safe under certain conditions
  • Lead time: 4 working days (2 for Fast Lane orders)
  • Maximum part dimensions: 650 x 330 x 560 mm


  • Polyamide powder filled with glass particles
  • Much higher thermal resistance (up to 110°C) than polyamide
  • Lead time: 8 working days
  • Maximum part dimensions: 650 x 330 x 560 mm
TPU 92A-1

PA 2241 FR

  • Flame-resistant polyamide (PA 12)
  • Suitable for aeronautics & aerospace applications
  • Lead time: 4 working days
  • Maximum part dimensions: 650 x330 x 560 mm

Looking for a consumer-grade finish?

We offer you Materialise Luxura: a premium finish in 15 contemporary colors and surface treatments, to ensure your product looks and feels like the winner that it is.

How Does Laser Sintering Work?

Laser Sintering is a laser-based technology that uses solid powder materials, typically plastics. A computer-controlled laser beam selectively binds together particles in the powder bed, by raising the powder temperature above the glass transition point after which adjacent particles flow together. As the powder is self-supporting, no support structures are necessary.

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