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Advances in Manufacturing

Erschienen in:

27.08.2023

In-situ powder mixing for laser-based directed energy deposition of functionally graded materials

verfasst von: Ji-Peng Chen, Shou-Chun Xie, He Huang

Erschienen in: Advances in Manufacturing | Ausgabe 1/2024

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Abstract

The mixing of powders is a highly relevant field under additive manufacturing, however, it has attracted limited interest to date. The in-situ mixing of various powders remains a significant challenge. This paper proposes a new method utilizing a static mixer for the in-situ mixing of multiple powders through the laser-based directed energy deposition (DED) of functionally graded materials. Firstly, a powder-mixing experimental platform was established; WC and 316L powders were selected for the mixing experiments. Secondly, scanning electron microscopy, energy dispersive spectroscopy, and image processing were used to visually evaluate the homogeneity and proportion of the in-situ mixed powder. Furthermore, powder-mixing simulations were conducted to determine the powder-mixing mechanism. In the simulations, a powder carrier gas flow field and particle mixing were employed. Finally, a WC/316L metal matrix composite sample was produced using laser-based DED to verify the application potential of the static mixer. It was found that the static mixer could adjust the powder ratio online, and a response time of 1–2 s should be considered when adjusting the ratio of the mixed powder. A feasible approach for in-situ powder mixing for laser-based DED was demonstrated and investigated, creating the basis for functionally graded materials.

Vorheriger Artikel Effect of cooling media on bead geometry, microstructure, and mechanical properties of wire arc additive manufactured IN718 alloy

Nächster Artikel Non-contact and full-field online monitoring of curing temperature during the in-situ heating process based on deep learning

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Titel: In-situ powder mixing for laser-based directed energy deposition of functionally graded materials
verfasst von: Ji-Peng Chen
Shou-Chun Xie
He Huang
Publikationsdatum: 27.08.2023
Verlag: Shanghai University
Erschienen in: Advances in Manufacturing / Ausgabe 1/2024
Print ISSN: 2095-3127
Elektronische ISSN: 2195-3597
DOI: https://doi.org/10.1007/s40436-023-00460-2

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