Effect of interlayer temperature on melt-pool morphology in laser powder bed fusion

IF 4.2 Q2 ENGINEERING, MANUFACTURING
Qian Wang , Panagiotis Michaleris Pan , Yong Ren , Corey Dickman , Edward Reutzel
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引用次数: 0

Abstract

Considering the high correlation of melt-pool size and build quality of a part fabricated by a laser power bed fusion (L-PBF) process, it is important to understand what are the major thermal factors that affect melt-pool size during the build process. This paper conducts an experimental investigation on how interlayer temperature affects the melt-pool morphology through a case study of a square-canonical part of Inconel 718 built with the EOS M280 system. Interlayer temperature is the layer temperature after powder spreading but before scanning a new layer. This paper examines variations in melt-pool morphology across representative layers with a large difference in interlayer temperature. It also investigates how the melt-pool size variation is affected by local temperature change caused by switching the laser scanning direction from hatch-to-hatch within a single layer. It is observed that the melt-pool half-width has increased by 40% - 100% when the interlayer temperature has increased from 100 °C to 300 °C. On the other hand, the variation of melt-pool dimensions due to local temperature change is less significant under a low interlayer temperature at 100 °C. The difference in melt-pool dimensions due to laser turnaround gets amplified when the interlayer temperature reaches high at 300 °C. Moreover, a trend of melt-pool morphology transitioning from a conduction to a convective heat transfer mode is observed at the interlayer temperature of 300 °C. Results of this paper demonstrate that interlayer temperature plays a critical role in thermal effects on melt-pool morphology, indicating a need of controlling interlayer temperature to improve build quality.

层间温度对激光粉末床熔池形貌的影响
考虑到熔池尺寸与激光动力床熔融(L-PBF)工艺制造的零件的构建质量高度相关,了解在构建过程中影响熔池尺寸的主要热因素是很重要的。本文以EOS M280系统构建的英科耐尔718方形正截面为例,对层间温度对熔池形貌的影响进行了实验研究。层间温度是粉末扩散后扫描新层之前的层间温度。本文考察了具有代表性的层间温度差异较大的熔池形态的变化。本文还研究了当激光扫描方向在单层内从一个舱口切换到另一个舱口时所引起的局部温度变化对熔池尺寸变化的影响。观察到,当层间温度从100℃升高到300℃时,熔池半宽增加了40% ~ 100%。另一方面,当层间温度较低(100°C)时,由于局部温度变化引起的熔池尺寸变化不太显著。当层间温度达到300°C时,由于激光旋转引起的熔池尺寸差异被放大。此外,在层间温度为300℃时,熔池形态有由传导传热向对流传热转变的趋势。研究结果表明,层间温度对熔池形态的热效应起着至关重要的作用,表明需要控制层间温度以提高熔池质量。
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
Additive manufacturing letters
Additive manufacturing letters Materials Science (General), Industrial and Manufacturing Engineering, Mechanics of Materials
CiteScore
3.70
自引率
0.00%
发文量
0
审稿时长
37 days
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