Experimental Study on the Effect of Process Parameters on the Build Time and Part Accuracy of Direct Metal Laser Sintering Components

Tata Nancharaiah, V. Sudheer Kumar Reddy, T. Chakravarthi, G. Tarun Sai Chowdary, Y. Brahma Teja
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Abstract

3D printing is an emerging technology that creates parts straight from CAD models. Direct Metal Laser Sintering (DMLS) is a 3D printing method that is becoming increasingly popular in the aerospace, medical, and orthopedics sectors. These are usually focused on precise, long-lasting, and lightweight parts. DMLS is an Additive Manufacturing (AM) technique that employs a laser to sinter a selected area of a metallic powder layer by layer to produce the required metal components. The heating power of the laser was discovered to have a strong effect on phase formation. The major issue with this process is that high residual and large deformations are introduced to the components during manufacturing. This causes a change in the fatigue strength of a part and can even lead to cracks. The quality of the DMLS parts is affected by various process parameters. In this study, the design of experiments is used to investigate the consequences of process parameters used in the DMLS process to make metal parts. Process parameters such as laser power and scanning speed must be identified because they have the largest influence on the part's characteristics. (Build time, part accuracy). The change in the controlling parameters, or process parameters, in the DMLS method, has been found to affect material properties, according to a literature review. Thus, in the proposed work, three process parameters laser speed, scanning speed, and hatching distance are taken into account at two distinct levels. L4 orthogonal arrays are used in the studies. Experimental research is done on the manufacturing process, build time and component accuracy. Finally, the impact of each parameter on the quality aspects is discussed based on the experimental findings.
工艺参数对直接金属激光烧结成形时间和零件精度影响的实验研究
3D打印是一种新兴技术,可以直接从CAD模型中创建零件。直接金属激光烧结(DMLS)是一种3D打印方法,在航空航天、医疗和骨科领域越来越受欢迎。这些通常集中在精确、持久和轻便的部件上。DMLS是一种增材制造(AM)技术,它利用激光一层一层地烧结金属粉末的选定区域,以生产所需的金属部件。发现激光的加热功率对相的形成有很强的影响。该工艺的主要问题是在制造过程中引入了高残余和大变形的组件。这会导致零件的疲劳强度发生变化,甚至可能导致裂纹。DMLS零件的质量受到各种工艺参数的影响。在本研究中,实验设计用于研究DMLS工艺中使用的工艺参数对金属零件的影响。必须确定激光功率和扫描速度等工艺参数,因为它们对零件的特性影响最大。(制造时间,零件精度)。根据文献综述,发现DMLS方法中控制参数或工艺参数的变化会影响材料性能。因此,在本文提出的工作中,激光速度、扫描速度和孵化距离三个工艺参数在两个不同的水平上被考虑。研究中采用了L4正交阵列。对制造工艺、制造时间和零件精度进行了实验研究。最后,根据实验结果讨论了各参数对质量方面的影响。
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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