Thermal Behavior and Melt-Pool Dynamics of Cu-Cr-Zr Alloy in Powder-Bed Selective Laser Melting Process

M. S. Rahman, P. Schilling, P. Herrington, U. Chakravarty
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引用次数: 3

Abstract

Selective laser melting (SLM) is a growing additive manufacturing (AM) technology which is capable of rapidly fabricating functional components in the medical and aviation industries. The thermophysical properties and melt-pool dynamics involved in the powder-bed SLM process play a crucial role to determine the part quality and process optimization. In this study, a 3-D computational fluid dynamics (CFD) model with Cu-Cr-Zr (C-18150) powder-bed is developed incorporating a moving conical volumetric heat source and temperature-dependent thermal properties to conduct the Multiphysics simulations of the SLM process. The melt-pool dynamics and its thermal behavior are investigated numerically and results for temperature profile, cooling rate, variation in density, thermal conductivity, specific heat capacity, and velocity in the melt pool are obtained for different laser beam specifications. The validation of the CFD model is conducted by comparing the simulation results for temperature and the melt-front motion with the analytical results found from the classical Stefan problem of the phase-change material. Studying the process parameters, melt-pool geometry, and thermal behavior of Cu-Cr-Zr alloy can generate valuable information to establish Cu-Cr-Zr as a low-cost engineering material in the AM industry.
Cu-Cr-Zr合金粉末床选择性激光熔化过程热行为及熔池动力学
选择性激光熔化(SLM)是一种新兴的增材制造(AM)技术,能够快速制造医疗和航空工业中的功能部件。粉末床SLM工艺的热物理性质和熔池动力学对零件质量和工艺优化起着至关重要的作用。本研究建立了Cu-Cr-Zr (C-18150)粉末床的三维计算流体动力学(CFD)模型,该模型包含一个移动的锥形体积热源和温度相关的热特性,以进行SLM过程的多物理场模拟。对熔池动力学及其热行为进行了数值研究,得到了不同光束规格下熔池的温度分布、冷却速率、密度变化、导热系数、比热容和速度。通过将温度和熔体前沿运动的模拟结果与相变材料经典Stefan问题的解析结果进行对比,验证了CFD模型的正确性。研究Cu-Cr-Zr合金的工艺参数、熔池几何形状和热行为可以为Cu-Cr-Zr合金在增材制造工业中成为低成本工程材料提供有价值的信息。
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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