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Damage development in open-hole composite specimens in fatigue. Part 2: Numerical modelling

Research output: Contribution to journalArticle

Original languageEnglish
Pages (from-to)890-898
Number of pages9
JournalComposite Structures
Volume106
DOIs
DatePublished - Dec 2013

Abstract

This paper follows on from the experimental investigation in Part I that identified the damage mechanisms and sequence in open hole tension specimens under fatigue loading. Here a finite element modelling approach is proposed for the simulation of this damage development which leads to the ability to predict overall failure. The models use a Paris-law based cohesive interface element to model delamination and matrix cracks and their interactions.

When applied to the tests from Part 1 it was found that the predicted damage process had a close match to that observed experimentally. Matrix cracking at the surface ply and initiation of matrix cracks in the subsequent plies lead to delamination through thickness, and ultimately to failure at the -45/0 interface. When run at different severities the model could predict an S-N curve which had good agreement to tests. (C) 2013 Elsevier Ltd. All rights reserved.

    Research areas

  • Finite element analysis, Delamination, Damage, Fatigue, Open hole, INTERFACE ELEMENTS, NOTCHED COMPOSITES, PROGRESSIVE DELAMINATION, LAMINATED COMPOSITES, TENSILE-STRENGTH, SIMULATION, PREDICTION, MECHANICS, GROWTH, STRESS

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