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Lattice structure tensile specimen manufactured with laser melting (LM) process out of the material H13. Bildinformationen anzeigen
Industry partners of the DMRC Bildinformationen anzeigen
Industry partners 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.

Industry partners of the DMRC

Industry partners 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

Concept and case studies 2018

Objectives
Additive Manufacturing (AM) is a technology that can be used to increase the function and efficiency of designs. One of the limiting factors in adoption are design studies with relevant empirical data that show performance enhancements. The idea of this project is to develop generic design studies that are relevant to the members´ application needs, run analysis, collect performance data and report the benefits. Thus, the project idea is adapted year by year with facing new challenges or harnessing further potentials of AM.

The areas for consideration in 2018 are:

  • Influencing magnetic flow
  • Optimizing damping properties

After clarification of tasks, for both areas research will be done on fundamental effects and the implications of using additive manufacturing. Experimental tests as well as simulation models will be set up to determine the best possible use of the new possibilities of AM. Optimization of geometries will be supported by computer-aided approaches for simulation and optimization. The basic research will be used to deduce active principles for densify the research on a comprehensible level. The results both of research and definition of active principles will be verified in case studies derived from actual products of DMRC partners. The results show potential success stories of additive manufacturing in terms of influencing magnetic flow and optimized damping properties that can be used to inspire design engineers.

Further project information
Project status01/18 - 12/18
Project duration12 months
Funding100 % DMRC industry partner
Research leaderProf. Dr.-Ing. Rainer Koch (CIK)
Prof. Dr.-Ing. Detmar Zimmer (KAt)
Project coordinatorSteffen Fischer (John Deere)
Research assistantSebastian Magerkohl, M.Sc.
PartnerDMRC Industry Partner
Contact

Prof. Dr. Rainer Koch

Computeranwendung und Integration in Konstruktion und Planung

Rainer Koch
Telefon:
+49 5251 60-2258
Fax:
+49 5251 60-3482
Büro:
P1.3.19

Prof. Dr. Detmar Zimmer

DMRC

Additive Manufacturing: Design Rules, functionality, function integration

Detmar Zimmer
Telefon:
+49 5251 60-2256
Fax:
+49 5251 60-3206
Büro:
P1.3.17

Sebastian Magerkohl, M.Sc.

DMRC

Design technology (function integration)

Sebastian Magerkohl
Telefon:
+49 5251 60-5541
Fax:
+49 5251 60-5409
Büro:
W2.206

Sprechzeiten:

Mi 14:00 - 15:00

Die Universität der Informationsgesellschaft