Multiphysics Modeling Framework to Predict Process-Microstructure-Property Relationship in Fusion-Based Metal Additive Manufacturing

多物理 微观结构 材料科学 过程(计算) 机械工程 3D打印 工艺工程 过程建模 多尺度建模 计算机科学 工艺优化 工程类 冶金 有限元法 操作系统 计算化学 化学 环境工程 结构工程
作者
Wenda Tan,Ashley D. Spear
出处
期刊:Accounts of materials research [American Chemical Society]
卷期号:5 (1): 10-21 被引量:11
标识
DOI:10.1021/accountsmr.3c00108
摘要

ConspectusAdditive Manufacturing (AM) technology produces three-dimensional components in a layer-by-layer fashion and offers numerous advantages over conventional manufacturing processes. Driven by the growing needs of diverse industrial sectors, this technology has seen significant advances on both scientific and engineering fronts. Fusion-based processes are the mainstream techniques for AM of metallic materials. As the metals go through melting and solidification during the printing processes, the final microstructure and hence the properties of the printed components are highly sensitive to the printing conditions and can be very different from those of the feedstock. It is critical to understand the process-microstructure-property relationship for the accelerated optimization of the processing conditions and certification of the printed components. While experimentation has been used widely to acquire a mechanistic understanding of this subject matter, numerical modeling has become increasingly helpful in achieving the same purpose.In this Account, the authors review their ongoing collaborative effort to establish a multiphysics modeling framework to predict the process-microstructure-property relationship in fusion-based metal AM processes. The framework includes three individual modules to simulate the dominating physics that dictate the process dynamics and microstructure evolution during printing as well as the responses of the printed microstructure to specific mechanical loadings. The process model uses the material properties and processing conditions as the inputs and simulates the laser-material interaction, multiphase thermo-fluid flow, and fluid-driven powder motion. It has successfully revealed the physical causes of depression zone shape variation as well as powder motion during the laser powder bed fusion process. The microstructure model uses the thermal history of the printing process and the material chemistry as the inputs and predicts the nucleation and growth of multiple grains in the multipass and multilayer printing processes. It has been used to understand the effects of inoculation and thermal conditions on grain texture evolution. The property models use microstructure data from simulations, experimental measurements, or statistical analyses as the inputs and leverage various computational tools to predict the mechanical response of the AM materials. These models have been used to quantitatively evaluate the effects of grain structure, residual strain, and pore and void defects on their properties and performance. While this and many other modeling works have significantly grown our collective knowledge of the process-microstructure-property relationship in fusion-based metal AM processes, efforts should be further invested in developing advanced theories and algorithms for the governing physics, leveraging data-driven approaches, accelerating simulation speed, and calibrating/validating models with controlled experimental measurements, among other aspects.
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