Process parameters effect on porosity rate of AlSi10Mg parts additively manufactured by Selective Laser Melting: challenges and research opportunities

Q3 Materials Science

Archives of materials science and engineering Pub Date : 2023-07-01 DOI:10.5604/01.3001.0053.8844

E.M. Kiass, K. Zarbane, Z. Beidouri

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引用次数: 0

Abstract

The present study aims to conduct a literature review on the various methods explored to enhance the quality of AlSi10Mg parts manufactured via the Selective Laser Melting (SLM) process. Specifically, the research focuses on identifying strategies for reducing the porosity level in SLM-fabricated AlSi10Mg parts. Considering the highly competitive nature of the market in which SLM technology is employed, improving part quality is necessary to ensure business continuity and maintain a competitive edge.The present study offers a comprehensive examination of the SLM process, particularly emphasising the diverse parameters that can influence the porosity rate in SLM-fabricated parts. By providing a detailed description of the SLM process, we highlight the intricacy of this technology and discuss the significance of various parameters. Furthermore, we present a literature review of prior research on SLM, summarising the studied parameters and their impact on porosity. This research aims to enhance our understanding of the SLM process and the parameters that affect the density of SLM-fabricated parts.The present study aims to identify research opportunities in the field of SLM technology. One particularly promising area of investigation is exploring the correlation between scan direction and the porosity rate in SLM-fabricated parts. This research seeks to enhance our understanding of the relationship between these two parameters and their potential impact on the quality of SLM-fabricated parts.By reducing porosity, industries such as aerospace and aeronautics can attain enhanced performance through mechanical system optimisation.The present study summarises the various methods previously investigated for reducing the porosity rate in parts manufactured using the SLM process. Additionally, it proposes new avenues for achieving further parameter optimisation to attain higher levels of quality.

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工艺参数对选择性激光熔化增材制造AlSi10Mg零件孔隙率的影响:挑战与研究机遇

本研究旨在对通过选择性激光熔化(SLM)工艺提高AlSi10Mg零件质量的各种方法进行文献综述。具体来说，研究的重点是确定降低slm制造的AlSi10Mg零件孔隙率的策略。考虑到采用SLM技术的市场竞争激烈，提高零件质量是确保业务连续性和保持竞争优势的必要条件。本研究对SLM工艺进行了全面的研究，特别强调了影响SLM制造零件孔隙率的各种参数。通过对SLM过程的详细描述，我们强调了该技术的复杂性，并讨论了各种参数的重要性。此外，我们对SLM的研究进行了文献综述，总结了研究参数及其对孔隙度的影响。本研究的目的是提高我们对SLM工艺和影响SLM制造零件密度的参数的理解。本研究旨在找出SLM技术领域的研究机会。一个特别有前途的研究领域是探索扫描方向与slm制造零件的孔隙率之间的关系。本研究旨在加强我们对这两个参数之间的关系及其对slm制造零件质量的潜在影响的理解。通过减少孔隙率，航空航天等行业可以通过机械系统优化获得更高的性能。本研究总结了以前研究过的各种方法，用于降低使用SLM工艺制造的零件的孔隙率。此外，它提出了实现进一步参数优化的新途径，以达到更高的质量水平。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Archives of materials science and engineering Materials Science-Materials Science (all)

CiteScore

2.90

自引率

0.00%

发文量