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

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

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DMRC @ SFF Symposium 2015, Austin TX, USA

Das Solid Freeform Fabrication (SFF) Symposium – An Additive Manufacturing Conference ist eine der wichtigsten wissenschaftlichen Konferenzen auf dem Gebiet der Additiven Fertigung. Es bietet die Möglichkeit, Forschungsergebnisse vor internationalen Experten vorzustellen und zu diskutieren. Dadurch werden der Arbeit des DMRC ein höherer Wert und Anerkennung verschafft sowie neue Ideen und Methoden für zukünftige Projekte gewonnen. Darüber hinaus stellt die Vernetzung mit internationalen AM-Experten die Basis für weitere Kooperationen mit anderen Forschungsinstituten und Industriepartnern dar. Im Detail werden die folgenden Themen beigetragen:

Christian Lindemann: Systematic approach for the economic application and comparison of AM part candidates

Gereon Deppe: Development of an economic decision support for the application of Additive Manufacturing in aerospace

Ulrich Jahnke: Protection measures against product piracy and application by the use of AM”

Thomas Reiher: FE-Optimization and data handling for Additive Manufacturing of structural parts

Alexander Taube: Mechanical properties and microstructural characterization of H13 tool steel manufactured by selective laser melting

Frederick Knoop: Mechanical and Thermal Properties of FDM Parts Manufactured with Polyamide 12

Thomas Künneke: Investigation of function integrated damping structures manufactured by additive manufacturing technologies

Stefan Josupeit: Temperature history within laser sintered part cakes and its influence on process quality

Stefan Josupeit: Material properties of laser sintered polyamide 12 as function of build cycles using low refresh rates

Patrick Delfs: Surface Roughness optimized Alignment of Parts for Additive Manufacturing Processes

Patrick Delfs: Mass Finishing of Laser Sintered Parts

Nils Funke: Powder Ageing and Material Characteristics of Laser Sintered Thermoplastic Elastomer (PEBA)

Tobias Lieneke: Systematic determination of dimensional tolerances for additive manufacturing

Die Universität der Informationsgesellschaft