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Physics-informed machine learning and mechanistic modeling of additive manufacturing to reduce defects

计算机科学 人工智能 工程类 制造工程 纳米技术 材料科学
作者
Yong Du,Tuhin Mukherjee,T. DebRoy
出处
期刊:Applied Materials Today [Elsevier BV]
卷期号:24: 101123-101123 被引量:123
标识
DOI:10.1016/j.apmt.2021.101123
摘要

Abstract In the past few decades, additive manufacturing has evolved for the one-step fabrication of various complex, customized metallic components that cannot be easily and economically produced by other means. However, widespread applications and market penetration of such components are often hindered by the formation of common defects that affect part quality, reliability, and serviceability, and increase the cost. Here, for the first time, we show that a combination of physics-informed machine learning, mechanistic modeling, and experimental data can reduce the occurrence of common defects in additive manufacturing. By analyzing experimental data on the defect formation for commonly used alloys available in the disjointed, peer-reviewed literature, we identify several important variables that reveal the physics behind the defect formation. Values of those variables computed using a mechanistic model, when used in a physics-informed machine learning, provide the hierarchical importance of the variables on defect formation. In addition, based on the results of the physics-informed machine learning, we provide easy-to-use, verifiable, quantitative formalism that can be used in real-time to predict defects before experiments. The proposed methodology can help in reducing common defects such as balling, cracking, lack of fusion, porosity, and surface roughness, and solve other complex engineering problems beyond additive manufacturing.
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