An artificial intelligence-based approach for identifying the in-plane orthotropic mechanical properties of electronic circuit boards

Mohammad A. Gharaibeh
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Abstract

The finite element modeling of electronic boards is a challenging task due to the complexity of the multi-component board structure. Hence, it is acceptable to attain equivalent orthotropic in-plane mechanical properties and use them throughout the finite element analysis (FEA) simulations. This paper aims to present an artificial intelligence-based methodology, using the artificial neural networks (ANNs), to estimate the in-plane mechanical properties of the printed circuit boards (PCB). In this methodology, the ANN technique used FEA data to find the relationship between the first 10 natural frequencies and the mechanical properties, that is, modulus of elasticity, Poisson’s ratio and the shear modulus, of the test board. Subsequently, the experimentally derived natural frequency data is then imported to the ANN model to identify the equivalent orthotropic properties. The ANN-predicted properties are plugged back into FEA and provided natural frequencies and mode shapes that are in great match with experimental results.
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基于人工智能的电子线路板平面正交机械特性识别方法
由于多组件电路板结构的复杂性,电子电路板的有限元建模是一项具有挑战性的任务。因此,在整个有限元分析(FEA)模拟过程中,获得等效的正交平面力学性能并加以使用是可以接受的。本文旨在介绍一种基于人工智能的方法,利用人工神经网络(ANN)估算印刷电路板(PCB)的面内机械特性。在该方法中,ANN 技术利用有限元分析数据找出前 10 个自然频率与测试板的机械性能(即弹性模量、泊松比和剪切模量)之间的关系。随后,将实验得出的固有频率数据导入 ANN 模型,以确定等效的正交特性。将 ANN 预测的属性输入到有限元分析中,得到的固有频率和模态振型与实验结果非常吻合。
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