On the calculation of the rectangular finite element of the plate

Authors

  • G.A. Yessenbayeva
  • D.N. Yesbayeva
  • T.Kh. Makazhanova

DOI:

https://doi.org/10.31489/2018m2/150-156

Keywords:

finite element method, rectangular finite element, deflection function, angular displacements, Hermite polynomials

Abstract

The article is devoted to the study of the thin plate bending by the finite element method. The application of the finite element method to solving the problem of the plate bending leads to the necessity of studying the rectangular finite element of the plate. All deformation and statics characteristics of the plate are functions of the displacement in the direction of the normal to the middle surface of the plate, which is determined by the deflection function. In the article, the formation of the plate deflection function in explicit form is carried out. The ways for finding the deflection function by division of the variables in the equilibrium equation of the plate, through an incomplete fourth - degree polynomial and in the form of Hermite polynomials are presented. The article is focused mainly on mechanics, engineers and scientific employees of technical specialties.

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Published

2018-06-30

Issue

Section

MECHANICS