Thermal profile modeling and microstructural evolution in laser processing of Inconel 625 plates by comparison of analytical and numerical methods

IF 1.9 Q3 ENGINEERING, MANUFACTURING
Stephanie B. Lawson, Milad Ghayoor, Xianzhe Fu, Ali Tabei, Andy Fan, Somayeh Pasebani
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引用次数: 0

Abstract

Microstructural evolution of materials under specified process conditions and parameters can be predicted by thermal modeling of additive manufacturing laser processes. The objective of this study was to develop, analyze and compare two methods for prediction: an analytical method and a numerical method for laser processing of Inconel 625 material. These methods were compared with experimental results for thermal profiling, and the effect of thermal profiles on microstructure of the experimental samples was explored. Maximum temperature and cooling rate of the numerical method were shown in good agreement, while the analytical method proved more challenging when compared to the experimental results for three laser parameters. Cooling curves were correlated with microstructure in terms of grain size, morphology, and orientation, with findings trending with parameter adjustments. This research supports the numerical modeling approach as a method for examining optimal laser processing conditions for Inconel 625 that is ideally suited for complex fluid flow analyses.
通过比较分析和数值方法,建立因科镍合金 625 板材激光加工过程中的热曲线模型和微观结构演化
材料在特定工艺条件和参数下的微观结构演变可以通过激光增材制造工艺的热建模进行预测。本研究的目的是开发、分析和比较两种预测方法:一种是分析方法,另一种是用于 Inconel 625 材料激光加工的数值方法。这些方法与热剖面实验结果进行了比较,并探讨了热剖面对实验样品微观结构的影响。数值方法的最高温度和冷却速率显示出良好的一致性,而分析方法在三个激光参数上与实验结果相比更具挑战性。冷却曲线与晶粒大小、形态和取向方面的微观结构相关,研究结果随参数调整而变化。这项研究支持将数值建模方法作为检查 Inconel 625 最佳激光加工条件的一种方法,这种方法非常适合复杂的流体流动分析。
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
Manufacturing Letters
Manufacturing Letters Engineering-Industrial and Manufacturing Engineering
CiteScore
4.20
自引率
5.10%
发文量
192
审稿时长
60 days
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