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For more information, please go to the DMRC Download section:
https://dmrc.uni-paderborn.de/content/downloads/
Bildinformationen anzeigen
Lattice structure tensile specimen manufactured with laser melting (LM) process out of the material H13. Bildinformationen anzeigen
Bildinformationen anzeigen
Bildinformationen anzeigen
Quality control during a Laser Sinter (LS) build job by a researcher of the DMRC Bildinformationen anzeigen
Fused Deposition Modeling (FDM) process during the manufacture of an Ultem 9085 part Bildinformationen anzeigen
Additive manufactured reaction wheel bracket for telecomunication satellites Bildinformationen anzeigen
Employees of the DMRC working with the "freeformer" from Arburg Bildinformationen anzeigen
Powder particles are used as raw material for laser-based additive manufacturing Bildinformationen anzeigen

For more information, please go to the DMRC Download section: https://dmrc.uni-paderborn.de/content/downloads/

Lattice structure tensile specimen manufactured with laser melting (LM) process out of the material H13.

Quality control during a Laser Sinter (LS) build job by a researcher of the DMRC

Fused Deposition Modeling (FDM) process during the manufacture of an Ultem 9085 part

Additive manufactured reaction wheel bracket for telecomunication satellites

Employees of the DMRC working with the "freeformer" from Arburg

Powder particles are used as raw material for laser-based additive manufacturing

AMendate - Innovative AM Optimization

AMendate is a fully automated topology optimization software for Additive Manufacturing. The innovative technology overcomes several shortfalls of existing optimization software and considers Additive Manufacturing design rules. It significantly simplifies the optimization process and has been developed with a focus on speed. It enables a lightweight design on a new level: Create bionic, ideal part designs perfectly adapted to their load cases.

Developed from the user perspective, this software lives up to all of an engineer needs:

  • A high resolution guarantees optimal and detailed structures
  • The stress orientated optimization generates bionic-shaped geometries with a homogeneous stress distribution for an optimal part reliability
  • An automatic and intelligent smoothing algorithm efficiently transfers the result into smooth and fine surfaces to guarantee a defect-free part surface
  • An automatic retransition into CAD makes further processing of the result with additional, special software dispensable
  • AM design rules are fully integrated in AMendate for a trouble-free manufacturing of the part

The combination of all these benefits and the high automation level lead to a very time-efficient optimization where the result is exported as a common CAD-file for an optimal CAD/CAM integration. In a unique way, a part is generated within a short time that can be used in the company's common technical data workflow, which is optimally adapted to the loads, reduces the use of material and can be used in everyday business without conversion losses. With only one software in only one step.

In the end, the user has a directly printable part design perfectly adapted to Additive Manufacturing.

From CAD to CAD in a few hours – with AMendate! New designs with new software.

Contact

Technologiepark 8, 33100 Paderborn

Phone: +49 5251 / 683 591 7
Email: info@amendate.de
Web: amendate.de

Die Universität der Informationsgesellschaft