CONSTANTIN, Loic; KRAIEM, Nada; WU, Zhipeng; CUI, Bai; BATTAGLIA, Jean-Luc; GARNIER, Christian; SILVAIN, Jean-François; LU, Yong Feng

doi:10.1016/j.addma.2021.101927

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CONSTANTIN, Loic
Institut de Chimie de la Matière Condensée de Bordeaux [ICMCB]
Department of Electrical and Computer Engineering

KRAIEM, Nada
Institut de Chimie de la Matière Condensée de Bordeaux [ICMCB]
Department of Electrical and Computer Engineering

WU, Zhipeng
Department of Electrical and Computer Engineering

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Ce document a été publié dans

Additive Manufacturing. 2021-02-01, vol. 40, p. 101927 (9 p.)

Elsevier

Résumé en anglais

Manufacturing complex metal matrix composite (MMC) structures by laser powder-bed fusion (LPBF) could unleash their full potential but is difficult due to the presence of reinforcement. Unmelted particles negatively affect the pool dynamics, cause critical spatter ejections, and form printing defects. In this work, by taking copper (Cu) / diamond (D) composite as an example for its prospective thermal management applications and machinability limitations; we discovered that adding steps to LPBF enables the fabrication of high-quality materials and structures. We demonstrated that adding a recoating step improves the composite quality compared to structures manufactured by conventional LPBF. Adding a remelting step enabled further improvement by limiting the generation of spatter and printing defects, leading to 3D laser print dense (97%), highly thermally conductive (349 W/m K) and complex Cu/5 vol% D structures. Therefore, pursuing research into nonconventional LPBF could open new avenues for manufacturing MMCs.< Réduire

Mots clés en anglais

Additive manufacturing

Copper

Diamond

Selective laser melting

Metal matrix composites

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Manufacturing of complex diamond-based composite structures via laser powder-bed fusion

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Résumé en anglais

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