Simulation of Low-velocity Impact Damage in Layered Composites using a Cohesive-based Finite Element Technique
Abstract
The mechanism of damage initiation and growth in layered composites subjected to low- velocity impact is simulated using a cohesive-based finite element technique. The numerical technique used comprises cohesive elements sandwiched between the regular finite elements. The basic structure of the formulation is presented, followed by the results of the simulation. The success of this numerical technique is dependent on the cohesive model used. The...
Paper Details
Title
Simulation of Low-velocity Impact Damage in Layered Composites using a Cohesive-based Finite Element Technique
Published Date
Oct 1, 2004
Journal
Volume
54
Issue
4
Pages
571 - 578
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