Title of article
Experimental Study and Numerical Simulation of Cutting and Tearing of Silicone Rubber using Extended Finite Element Method
Author/Authors
Gzaiel ، Marwa Laboratoire de Systémes et de Mécanique Appliquée (LASMAP) - Ecole Polytechnique de Tunis - Université de Carthage 2078 , Triki ، Ennouri Apparel research and innovation center , Barkaoui ، Abdelwahed Laboratoire des Energies renouvelables et des Matériaux Avancés (LERMA) - Université Internationale de Rabat
From page
465
To page
478
Abstract
Failure of soft materials is a fundamental challenge due to the strongly nonlinear and dissipative deformation involved. An experimental and extended finite element study of dynamic crack in silicone rubber are investigated. Hence, material preparation procedures, details of sample as well as testing apparatus which have been used for cutting, pure shear tests are presented. First, the rate of energy restitution and an instantaneous propagation speed were achieved. The crack propagation speed / energy release rate relationships are given for the different strain rates. second, an analysis of the mechanical fields and stress state in the fracture process zone is proposed. Finally, cutting force evolution according to stretches is established. Then, an energy-based approach was introduced. Results show that the cutting force and the total cutting energy decreases significantly with increasing deformation rate.
Keywords
Silicone , Fracture , Friction , Crack Propagation , XFEM , Experimental Study
Journal title
Journal of Applied and Computational Mechanics
Journal title
Journal of Applied and Computational Mechanics
Record number
2766935
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