Journal of Science: Advanced Materials and Devices (Sep 2016)

High frequency modes meshfree analysis of Reissner–Mindlin plates

  • Tinh Quoc Bui,
  • Duc Hong Doan,
  • Thom Van Do,
  • Sohichi Hirose,
  • Nguyen Dinh Duc

DOI
https://doi.org/10.1016/j.jsamd.2016.08.005
Journal volume & issue
Vol. 1, no. 3
pp. 400 – 412

Abstract

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Finite element method (FEM) is well used for modeling plate structures. Meshfree methods, on the other hand, applied to the analysis of plate structures lag a little behind, but their great advantages and potential benefits of no meshing prompt continued studies into practical developments and applications. In this work, we present new numerical results of high frequency modes for plates using a meshfree shear-locking-free method. The present formulation is based on Reissner–Mindlin plate theory and the recently developed moving Kriging interpolation (MK). High frequencies of plates are numerically explored through numerical examples for both thick and thin plates with different boundaries. We first present formulations and then provide verification of the approach. High frequency modes are compared with existing reference solutions and showing that the developed method can be used at very high frequencies, e.g. 500th mode, without any numerical instability.

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