3D printing

We are specialists in additive manufacturing design.

We offer a 3D printing service integrated with our process, which will save you time and money. Standard prices are available online. For specific requests, don’t hesitate to contact us.

We can offer you a volume discount if you are interested in small series productions. If the parts and their implementation are properly designed, the post-treatments are minimized and the unit price can become interesting for small and medium series.

See our machines
Online submission

Online submission

Terms and conditions

Terms and conditions

Selective Laser Sintering (SLS)

Sinterit – Lisa PRO

Economic
Precision
Aesthetic
Resistance
Complex geometry
Choice of materials
Print volume
Learn more

Fused Deposition Modeling (FDM)

Ultimaker – S5

Economic
Precision
Aesthetic
Resistance
Complex geometry
Choice of materials
Print volume
Learn more

Stereolithography (SLA)

Formlabs – Form 2

Economic
Precision
Aesthetic
Resistance
Complex geometry
Choice of materials
Print volume
Learn more

Frequently asked questions

We have collected the most common questions

Frequently asked questions

We have collected the most common questions

Selective Laser Sintering (SLS)

This process fuses layers of thermoplastic powder using a laser. The post-treatment consists of cleaning the parts by sandblast.

  • Materials : PA12 smooth, PA11 onyx, TPU, TPE.
  • Advantages :
    • Excellent QPR (Quality-Price-Ratio)
    • Can make very complex part with good precision.
    • Good uniform mechanical property.
    • Less finishing than other process.
    • Design without support (self-supporting process).
  • Disadvantages :
    • Batch process requiring dense prints (nesting) in order to be economical.
    • Risk of wraping
    • Long setup time and print preparation.
    • Few choices of materials.
  • Applications :
    • General application
    • Prototyping or production parts in small series.
    • Simulation of injected part.

Selective Laser Sintering (SLS)

This process fuses layers of thermoplastic powder using a laser. The post-treatment consists of cleaning the parts by sandblast.

  • Materials : PA12 smooth, PA11 onyx, TPU, TPE.
  • Advantages :
    • Excellent QPR (Quality-Price-Ratio)
    • Can make very complex part with good precision.
    • Good uniform mechanical property.
    • Less finishing than other process.
    • Design without support (self-supporting process).
  • Disadvantages :
    • Batch process requiring dense prints (nesting) in order to be economical.
    • Risk of wraping
    • Long setup time and print preparation.
    • Few choices of materials.
  • Applications :
    • General application
    • Prototyping or production parts in small series.
    • Simulation of injected part.

Fused Deposition Modeling (FDM)

This process deposits layers of extruded thermoplastic. Post-processing involves removing the support material.

  • Materials : PLA, tough PLA, ABS, CPE, CPE +, Nylon, TPU, PP, PC, and more.
  • Advantages :
    • Economical, proven effective and simple.
    • Wide choice of materials.
    • Possibility to hollow out parts automatically.
    • Possibility to design parts without any required finishing.
    • Ability to make bi-color prints
  • Disadvantages :
    • Not very accurate and requires thick walls.
    • Striated surface finish.
    • Non-uniform mechanical properties depending on the direction.
    • Commonly requires supports.
    • Complex geometries are expensive and difficult to achieve.
  • Applications :
    • Prototyping or small series production.
    • Low price functional validation
    • Large tools and parts.
    • Extruded profile prototype

Fused Deposition Modeling (FDM)

This process deposits layers of extruded thermoplastic. Post-processing involves removing the support material.

  • Materials : PLA, tough PLA, ABS, CPE, CPE +, Nylon, TPU, PP, PC, and more.
  • Advantages :
    • Economical, proven effective and simple.
    • Wide choice of materials.
    • Possibility to hollow out parts automatically.
    • Possibility to design parts without any required finishing.
    • Ability to make bi-color prints
  • Disadvantages :
    • Not very accurate and requires thick walls.
    • Striated surface finish.
    • Non-uniform mechanical properties depending on the direction.
    • Commonly requires supports.
    • Complex geometries are expensive and difficult to achieve.
  • Applications :
    • Prototyping or small series production.
    • Low price functional validation
    • Large tools and parts.
    • Extruded profile prototype

Stereolithography (SLA)

This process polymerizes a resin photopolymer using a laser. The post-treatment consists of cleaning the parts with alcohol, removing the support material and then cleaning the parts with UV.

  • Materials : Standard resin, Sketch, High Strength, Durable, Flexible, Elastic, Rigid, High Temperature, Castable Wax, Ceramic, etc.
  • Advantages :
    • Very precise and impeccable surface finish.
    • High level of detail.
    • Fast printing and installation.
    • Possibility to design parts without any required finishing.
  • Disadvantages :
    • Costly materials.
    • Most materials are brittle.
    • Commonly requires supports.
    • Can not produce media in different hardware.
  • Applications :
    • Scale model, aesthetic validation.
    • Functional validation requiring a good surface finish.
    • Tooling, pattern and molding.

Stereolithography (SLA)

This process polymerizes a resin photopolymer using a laser. The post-treatment consists of cleaning the parts with alcohol, removing the support material and then cleaning the parts with UV.

  • Materials : Standard resin, Sketch, High Strength, Durable, Flexible, Elastic, Rigid, High Temperature, Castable Wax, Ceramic, etc.
  • Advantages :
    • Very precise and impeccable surface finish.
    • High level of detail.
    • Fast printing and installation.
    • Possibility to design parts without any required finishing.
  • Disadvantages :
    • Costly materials.
    • Most materials are brittle.
    • Commonly requires supports.
    • Can not produce media in different hardware.
  • Applications :
    • Scale model, aesthetic validation.
    • Functional validation requiring a good surface finish.
    • Tooling, pattern and molding.

Contact

Any questions about 3D printing?

Contact us