Title: On the reduction of stress concentration factor in an infinite panel using different radial functionally graded materials

Authors: Vikas Goyat; Suresh Verma; Ramesh Kumar Garg

Addresses: Department of Mechanical Engineering, Deenbandhu Chhotu Ram, University of Science and Technology, Murthal Haryana, India; Department of Mechanical Engineering, Hindu College of Engineering Sonipat Haryana, India ' Department of Mechanical Engineering, Deenbandhu Chhotu Ram, University of science and Technology, Murthal Haryana, India ' Department of Mechanical Engineering, Deenbandhu Chhotu Ram, University of science and Technology, Murthal Haryana, India

Abstract: This work deals with a parametric study of the stress concentration factor in different functionally graded material panels having a central circular hole subjected to a uniaxial tensile, biaxial tensile and shear load. The extended finite element method along with isoparametric graded finite element material properties modelling scheme is used to evaluate the stress concentration factor. Three candidate material gradation models are tested in this parametric study and various metal ceramic functionally graded materials are also tested for stress concentration. The stress concentration factor evaluated numerically for a wide range of Young's modulus ratio and power law index are presented. It has been concluded that the low stress concentration factor can be achieved by choosing the proper material gradation model and their power law index for a fixed value of Young's modulus ratio.

Keywords: stress concentration factor; SCF; power law FGM; sigmoid FGM; functionally graded material; extended finite element method; XFEM; circular hole.

DOI: 10.1504/IJMPT.2018.092937

International Journal of Materials and Product Technology, 2018 Vol.57 No.1/2/3, pp.109 - 131

Received: 08 Jan 2017
Accepted: 15 Nov 2017
Published online: 03 Jul 2018 *

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