Coupled electromagnetic and mechanical modeling and detection of buried objects

IF 2.2 Q2 ENGINEERING, MULTIDISCIPLINARY
Mohamed Elbadry , J. Wetherington , M.A. Zikry
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引用次数: 0

Abstract

A time domain finite element (FE) framework was used to investigate the coupled electromagnetic (EM) and mechanical behavior of buried target systems. The coupling of the EM and mechanical fields is through using the Lorentz Force as the body force in the mechanical Cauchy equation of motion. The coupling is sequential where the EM fields and Lorentz force are first solved for, then they are used as inputs for the Cauchy equations of motion. Predictions were obtained for different loading conditions and the Method of Morris sensitivity analysis was used to understand how different mechanical and EM variables affect the buried target system. These predictions indicate that target permeability and depth had the most significant and dominant effects on the behavior of the buried target system.

地埋物电磁与力学耦合建模与探测
采用时域有限元框架研究了埋地目标系统的电磁与力学耦合行为。电磁场与机械场的耦合是通过在力学柯西运动方程中用洛伦兹力作为体力实现的。耦合是顺序的,首先求解电磁场和洛伦兹力,然后将它们用作柯西运动方程的输入。对不同的加载条件进行了预测,并利用Morris敏感性分析方法了解了不同的力学和电磁变量对埋地目标系统的影响。这些预测表明,目标渗透率和深度对埋藏目标系统的行为影响最为显著和主导。
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来源期刊
Applications in engineering science
Applications in engineering science Mechanical Engineering
CiteScore
3.60
自引率
0.00%
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0
审稿时长
68 days
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