Computational micromechanics model for the analysis of fiber kinking in unidirectional fiber-reinforced polymers

Miguel González Herráez; Andrew C. Bergan; Claudio S. Lopes; C. González

doi:https://doi.org/10.1016/j.mechmat.2019.103299

doi.org/10.1016/j.mechmat.2019.103299

Computational micromechanics model for the analysis of fiber kinking in unidirectional fiber-reinforced polymers

Miguel González Herráez

14

,

Andrew C. Bergan

6

,

..., C. González

9

Mechanics of Materials3.90

Volume: 142, Pages: 103299 - 103299

Published: Mar 1, 2020

Abstract

A computational micromechanics (CMM) model is developed to analyze fiber kinking, which is a failure mechanism that takes place in fiber-reinforced composites when they are loaded under longitudinal compression. The CMM model consists of a single AS4 carbon fiber with an initial misalignment embedded in an 8552 polymer matrix. The deformation of the model is governed by periodic boundary conditions (PBC). The relatively simple CMM model enables...

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Paper Details

Title

Computational micromechanics model for the analysis of fiber kinking in unidirectional fiber-reinforced polymers

DOI

doi.org/10.1016/j.mechmat.2019.103299

Published Date

Mar 1, 2020

Journal

Mechanics of Materials

Volume

142

Pages

103299 - 103299

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