A Review of Residual Stress and Deformation Modeling for Metal Additive Manufacturing Processes

Asim Rashid, Aditya Gopaluni
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Abstract

A metal additive manufacturing process results in a nearly net-shaped fabrication of parts directly from digital data. A local heat source melts the deposited material, and a part is built layer-by-layer. Residual stress and deformation are critical issues experienced by additively manufactured parts. Modeling the additive manufacturing process provides important insights and can help determine an optimal build plan so as to minimize residual stress formation. Various approaches have been used for modeling of residual stresses, ranging from high-fidelity models to simplified models, for quicker results. This paper provides a state-of-the-art review of the approaches used to numerically model residual deformation and stresses in structures built using additive manufacturing. Furthermore, it describes the physical causes of residual-stress generation in an additively manufactured structure.

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金属增材制造过程中残余应力和变形建模研究进展
金属增材制造工艺可以直接从数字数据中制造出近乎网状的零件。局部热源熔化沉积的材料,然后一层一层地制造零件。残余应力和变形是增材制造零件面临的关键问题。对增材制造过程进行建模提供了重要的见解,可以帮助确定最佳的建造计划,从而最大限度地减少残余应力的形成。各种方法已用于残余应力的建模,从高保真模型到简化模型,以更快的结果。本文提供了一个国家的最先进的方法,用于数值模拟残余变形和应力的结构使用增材制造。此外,还描述了增材制造结构中残余应力产生的物理原因。
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