Achtung:

Sie haben Javascript deaktiviert!
Sie haben versucht eine Funktion zu nutzen, die nur mit Javascript möglich ist. Um sämtliche Funktionalitäten unserer Internetseite zu nutzen, aktivieren Sie bitte Javascript in Ihrem Browser.

Info-Icon Diese Seite ist nicht in Deutsch verfügbar
Lattice structure tensile specimen manufactured with laser melting (LM) process out of the material H13. Bildinformationen anzeigen
Partner of the DMRC Bildinformationen anzeigen
Partner of the DMRC 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
Tactile measurement of a SLM part with a Coordinatemeasuring machine (CMM) Bildinformationen anzeigen
Powder particles are used as raw material for laser-based additive manufacturing Bildinformationen anzeigen

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

Partner of the DMRC

Partner of the DMRC

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

Tactile measurement of a SLM part with a Coordinatemeasuring machine (CMM)

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

Standardization Committees

Additive Manufacturing technologies and applications are becoming more and more mature. The DMRC is supporting this progress on different levels. Doing fundamental and applied research along different disciplines, technologies and research fields on the one hand. On the other hand, there is an increasing need of standardization and the DMRC is actively participating in different standardization committees to foster this process.

It plays an important role in the VDI FA 105 “Additive Manufacturing”. This committee started in 2003 and is focused on different additive manufacturing technologies. DMRC participates in the sub-committees regarding Plastics (FA105.1), Metals (FA105.2), Design for Additive Manufacturing (FA105.3), Legal aspects of Additive Manufacturing (FA105.5) and Safety aspects of Additive Manufacturing (FA105.6).

Furthermore, the DMRC is part of the VDMA Additive Manufacturing – Automation. The superordinate committee targets at the whole chain of production and brings together industry and research institutes. The overall goal is to develop standards and technical requirements to support the ongoing extension of Additive Manufacturing application. DMRC activities are focused on aspects regarding the automation of Additive Manufacturing processes.

Another standardization committee the DMRC is part of is the FVA AK Geregelter Elektroantrieb and FVA AK Additive Manufacturing. It aims at uncover new application potentials of Additive Manufacturing in the field of drive train applications. FVA AKGEA is focused on applications regarding controlled
electric drives, while FVA AKAM has a broader perspective and targets.

The DVS FA 13 is a committee concerned about Additive Manufacturing based on metal and non-metal materials along the whole process chain, including pre- and post-processing. Technology development, user acceptance and access to further application areas is in the center of interest.

Sie interessieren sich für:
DVS

Technical Committee
FA13 - Additive Manufacturing

FVA

FVA AK Additive Manufacturing

VDMA

Working group: Additive Manufacturing - Automotion

VDI

FA105
Additive Manufacturing

Contact
Telefon:
+49 5251 60-5415
Fax:
+49 5251 60-5409
Büro:
W 2.107
Web:

Die Universität der Informationsgesellschaft