Finite element modeling on fracture toughness of 3D angle-interlock woven carbon/epoxy composites at microstructure level
Volume: 28, Issue: 8, Pages: 849 - 860
Published: Apr 11, 2019
Abstract
Fracture toughness behaviors of 3D angle-interlock woven composites were characterized with Mode I double cantilever beam test and finite element analysis (FEA). Load–displacement curves, strain energy release rates and fracture morphologies were obtained from tests and compared with FEA. We found that the 3D woven fabric structure increases strain energy release rates. The pullout and breakages of the yarns through thickness direction are the...
Paper Details
Title
Finite element modeling on fracture toughness of 3D angle-interlock woven carbon/epoxy composites at microstructure level
Published Date
Apr 11, 2019
Volume
28
Issue
8
Pages
849 - 860
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