Through-thickness fracture behavior of unidirectional glass fibers/epoxy composites under various in-plane loading using the CTS test

J. Jamali; A. H.I. Mourad; Y. Fan; J. T. Wood

doi:10.1016/j.engfracmech.2016.01.016

Through-thickness fracture behavior of unidirectional glass fibers/epoxy composites under various in-plane loading using the CTS test

J. Jamali, A. H.I. Mourad, Y. Fan, J. T. Wood

Department of Mechanical and Aerospace Engineering

Research output: Contribution to journal › Article › peer-review

26 Citations (Scopus)

Abstract

In this study, the pure mode I, pure mode II and mixed mode I/II fracture behavior of a laminated unidirectional (UD) long glass fiber epoxy composite was investigated. The values of mixed mode fracture toughness and mixed mode critical strain energy release rate (CSERR) were measured. The mixed mode loading was applied to the specimens using compact tension shear (CTS) testing fixture. To ensure proper crack propagation, some modifications were applied to the specimens. The crack propagation through the thickness of the composite and energy absorbing processes associated with the through thickness fracture were studied. A detailed study of failure mechanisms on the fracture surface was performed. The study shows that the change in the value of toughness was related to the fracture morphology.

Original language	English
Pages (from-to)	83-95
Number of pages	13
Journal	Engineering Fracture Mechanics
Volume	156
DOIs	https://doi.org/10.1016/j.engfracmech.2016.01.016
Publication status	Published - May 1 2016

Keywords

CTS specimen
Mixed mode fracture
Through-thickness crack
Unidirectional glass fiber/epoxy

ASJC Scopus subject areas

Materials Science(all)
Mechanics of Materials
Mechanical Engineering

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10.1016/j.engfracmech.2016.01.016

Cite this

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title = "Through-thickness fracture behavior of unidirectional glass fibers/epoxy composites under various in-plane loading using the CTS test",

abstract = "In this study, the pure mode I, pure mode II and mixed mode I/II fracture behavior of a laminated unidirectional (UD) long glass fiber epoxy composite was investigated. The values of mixed mode fracture toughness and mixed mode critical strain energy release rate (CSERR) were measured. The mixed mode loading was applied to the specimens using compact tension shear (CTS) testing fixture. To ensure proper crack propagation, some modifications were applied to the specimens. The crack propagation through the thickness of the composite and energy absorbing processes associated with the through thickness fracture were studied. A detailed study of failure mechanisms on the fracture surface was performed. The study shows that the change in the value of toughness was related to the fracture morphology.",

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T1 - Through-thickness fracture behavior of unidirectional glass fibers/epoxy composites under various in-plane loading using the CTS test

AU - Jamali, J.

AU - Mourad, A. H.I.

AU - Fan, Y.

AU - Wood, J. T.

PY - 2016/5/1

Y1 - 2016/5/1

N2 - In this study, the pure mode I, pure mode II and mixed mode I/II fracture behavior of a laminated unidirectional (UD) long glass fiber epoxy composite was investigated. The values of mixed mode fracture toughness and mixed mode critical strain energy release rate (CSERR) were measured. The mixed mode loading was applied to the specimens using compact tension shear (CTS) testing fixture. To ensure proper crack propagation, some modifications were applied to the specimens. The crack propagation through the thickness of the composite and energy absorbing processes associated with the through thickness fracture were studied. A detailed study of failure mechanisms on the fracture surface was performed. The study shows that the change in the value of toughness was related to the fracture morphology.

AB - In this study, the pure mode I, pure mode II and mixed mode I/II fracture behavior of a laminated unidirectional (UD) long glass fiber epoxy composite was investigated. The values of mixed mode fracture toughness and mixed mode critical strain energy release rate (CSERR) were measured. The mixed mode loading was applied to the specimens using compact tension shear (CTS) testing fixture. To ensure proper crack propagation, some modifications were applied to the specimens. The crack propagation through the thickness of the composite and energy absorbing processes associated with the through thickness fracture were studied. A detailed study of failure mechanisms on the fracture surface was performed. The study shows that the change in the value of toughness was related to the fracture morphology.

KW - CTS specimen

KW - Mixed mode fracture

KW - Through-thickness crack

KW - Unidirectional glass fiber/epoxy

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VL - 156

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JO - Engineering Fracture Mechanics

JF - Engineering Fracture Mechanics

ER -

Through-thickness fracture behavior of unidirectional glass fibers/epoxy composites under various in-plane loading using the CTS test

Abstract

Keywords

ASJC Scopus subject areas

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