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  Scopus ID: 21100926589

Computational Analysis of Elastically Supported Functionally Graded Plates with Plate Thickness Ratio and Materials Properties Having Rectangular Holes for Post Deforming in Thermal Environments

Rajesh Kumar

Abstract

Computational simulation of FGM (Functionally graded material) plates on foundations with rectangular holes for post deforming in thermal environments are investigated. MATLAB code, stochastic finite element, and FOPT applied for various geometric parameters to find out mean post deforming thermal load and coefficient of variations of post deforming thermal load. The variations in plate thickness ratios, aspect ratios, and power index are investigated along with variations in amplitude ratios. Present HSDT with FOPT is applied for mean post deforming thermal load and uncertainty (COV) of post deforming thermal load parameters and compared for validation with those available literatures analytical method results. There are many applications of these plates in modern life and technology used in aviation industry and aerospace applications.

Published on: April 19, 2023
doi: 10.17756/nwj.2023-s1-062
Citation: Kumar R. 2023. Computational Analysis of Elastically Supported Functionally Graded Plates with Plate Thickness Ratio and Materials Properties Having Rectangular Holes for Post Deforming in Thermal Environments. NanoWorld J 9(S1): S316-S321.

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