Effect of processing parameters on the densification of an additively manufactured 2024 Al alloy

Effect of processing parameters on the densification of an additively manufactured 2024 Al alloy

Understanding the densification behaviours and formation mechanisms of defects are essential to fabricate high quality and high strength aluminium components using selective laser melting (SLM) technology. In this work, the effects of laser power and scanning speed on the densification, defects evol...

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Bibliographic Details
Published in:Journal of materials science & technology Vol. 58; pp. 34 - 45
Main Authors: Tan, Qiyang, Liu, Yingang, Fan, Zhiqi, Zhang, Jingqi, Yin, Yu, Zhang, Ming-Xing
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-12-2020
Subjects:
Aluminum alloys
Defects
Metallography
Powder Bed Fusion
SEM
Aluminum alloys
Metallography
SEM
Powder Bed Fusion
Defects
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Summary:Understanding the densification behaviours and formation mechanisms of defects are essential to fabricate high quality and high strength aluminium components using selective laser melting (SLM) technology. In this work, the effects of laser power and scanning speed on the densification, defects evolution and their formation mechanisms in a SLMed 2024 aluminium (Al) alloy were investigated in consideration of the corresponding laser energy input, melting mode transition and microstructural evolution. The results showed that optimizing the processing parameters effectively reduced the porosity level below 1% by avoiding the lack of fusion and keyhole melting mode, and minimizing the gas pores. However, optimization of the processing parameters could not eliminate the columnar structure associated with the SLMed 2024 Al alloy, which contributed to the hot-tearing cracks in the SLMed parts. It was found that the dependence of porosity formation on SLM processing parameters was contrary to the crack density. Hence, to further improve the SLM-processability of the 2024 Al alloy it is necessary to develop SLM methods in order avoid the hot-cracking within the optimized processing parameter window associated with the minimum porosity formation.
ISSN:1005-0302
1941-1162
DOI:10.1016/j.jmst.2020.03.070