Finite element analysis and evaluation of an extended two‐dimensional elasticity theory: Application to thick plate vibrations

Abderrahim Houmat
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Abstract

An extended two‐dimensional (2D) elasticity theory based on the weighted residual concept is developed in an attempt to capture thickness effects in vibrating thick plates. Plate theories can only provide approximate solutions due to certain kinematics assumptions. The weighting functions are expressed in terms of Legendre orthogonal polynomials. A formulation in rectangular Cartesian coordinates serves as the basis for an implementation of the finite element method. The applicability of the extended 2D elasticity theory is demonstrated through examples of rectangular, thick plates with different aspect ratios, thickness ratios, and boundary conditions. The accuracy of the extended 2D elasticity theory is assessed through a three‐dimensional finite element analysis. The frequencies and modal stresses show excellent agreement with three‐dimensional finite element calculations.
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扩展二维弹性理论的有限元分析和评估:厚板振动应用
基于加权残差概念开发的扩展二维(2D)弹性理论试图捕捉振动厚板的厚度效应。由于某些运动学假设,板理论只能提供近似解。加权函数用 Legendre 正交多项式表示。矩形直角坐标表是实施有限元方法的基础。通过具有不同长宽比、厚度比和边界条件的矩形厚板实例,证明了扩展二维弹性理论的适用性。通过三维有限元分析评估了扩展二维弹性理论的准确性。频率和模态应力与三维有限元计算结果非常吻合。
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