材料科学
领域(数学)
电磁场
金属
工程物理
机械工程
制造工程
冶金
纳米技术
工程类
数学
量子力学
物理
纯数学
作者
Chao Zeng,Jiutian Xue,Yun Jia,Shaomin Luo,Fang Huang,Xiangyao Liu,Du Yu-Lei
标识
DOI:10.1016/j.jmapro.2024.09.078
摘要
Although additive manufacturing (AM) technology has been developed for many years, traditional metallurgical defects are inevitable most of the time by solely optimizing process parameters. To improve the manufacturing quality of as-built AMed parts, the electromagnetic (EM) field may show great potential for online use through the magnetohydrodynamics effect on the melt pool. This work aims to give a dedicated review of the application of EM fields state-of-art in metal AM processes . The working principle and metal solidification theory in the EM field are elucidated, followed by a review of typical EM fields that have been used and how they are arranged in AM processes. The effect of EM fields on melt temperature characteristics and the transient melt flow during the manufacturing process, the subsequent influence on macro and microstructure characteristics, and finally the mechanical properties of the AMed parts are discussed. This work is expected to be helpful for a critical understanding of the EM-field-assisted AM process of metallic materials and the mechanisms of EM effect in AM processes up to date.
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