Effect of Notch Shape & Size on the Mechanical Performance of Woven GFRP Laminate: A numerical Investigation

Please use this identifier to cite or link to this item: http://hdl.handle.net/2080/5202

Title:	Effect of Notch Shape & Size on the Mechanical Performance of Woven GFRP Laminate: A numerical Investigation
Authors:	Mohapatra, Deepti Ranjan Behera, Suryamani Mondal, Subhajit
Keywords:	3D progressive damage Hashin Failure Criteria Woven GFRP Central notch Bearing Strength
Issue Date:	Jun-2025
Citation:	8th International Conference on Frontiers of Composite Materials (ICFCM2025), Tokyo, Japan, 9-11 June 2025
Abstract:	Due to their ability to impart transverse stiffness, glass fibre-reinforced polymer (GFRP) composite materials have increasingly been used in different sectors, especially in the woven type. Assembly of such materials in many configurations requires drilling a hole, thus creating a material discontinuity in that component. The failure strength and mode of failure significantly depend on the shape of such notches. In this investigation, the numerical model of woven GFRP laminates with various shaped notches is developed and subjected to a displacement-controlled quasi-static tensile test. The size of the notches is also varied to study its effect on the Bearing Strength (BS) of the laminate. The effect of three shapes, constituting a circle, a square, and a diamond, is evaluated for different ply orientation angles on their failure pattern is identified
Description:	Copyright belongs to proceeding publisher
URI:	http://hdl.handle.net/2080/5202
Appears in Collections:	Conference Papers

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