Asymmetric Shielding Mechanisms in the Mixed-Mode Fracture of a Glass/Epoxy Interface

J. G. Swadener; K. M. Liechti

Source: Journal of Applied Mechanics:;1998:;volume( 065 ):;issue: 001::page 25

Author:

J. G. Swadener

K. M. Liechti

DOI: 10.1115/1.2789035

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: An asymmetric increase in the apparent values of the interfacial fracture toughness with increasing mode II component of loading has been observed by several investigators. In this study, cracks were grown in a steady-state manner along the glass/epoxy interface in sandwich specimens in order to determine the mechanisms responsible for the shielding effect. Finite element analysis using a hydrostatic stress and strain rate dependent plasticity model for the epoxy and a cohesive zone model for the interface shows that plastic dissipation in the epoxy accounts for the asymmetric shielding seen in these experiments which cover a wide range of mode mix. Numerical predictions of normal crack-opening displacements yielded results that were consistent with measured values which were made as close as 0.3 μm from the crack tip.

keyword(s): Glass , Epoxy adhesives , Fracture (Process) , Mechanisms , Fracture (Materials) , Finite element analysis , Energy dissipation , Stress , Hydrostatics , Plasticity , Fracture toughness AND Steady state ,

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Asymmetric Shielding Mechanisms in the Mixed-Mode Fracture of a Glass/Epoxy Interface

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contributor author	J. G. Swadener
contributor author	K. M. Liechti
date accessioned	2017-05-08T23:55:45Z
date available	2017-05-08T23:55:45Z
date copyright	March, 1998
date issued	1998
identifier issn	0021-8936
identifier other	JAMCAV-26435#25_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/119969
description abstract	An asymmetric increase in the apparent values of the interfacial fracture toughness with increasing mode II component of loading has been observed by several investigators. In this study, cracks were grown in a steady-state manner along the glass/epoxy interface in sandwich specimens in order to determine the mechanisms responsible for the shielding effect. Finite element analysis using a hydrostatic stress and strain rate dependent plasticity model for the epoxy and a cohesive zone model for the interface shows that plastic dissipation in the epoxy accounts for the asymmetric shielding seen in these experiments which cover a wide range of mode mix. Numerical predictions of normal crack-opening displacements yielded results that were consistent with measured values which were made as close as 0.3 μm from the crack tip.
publisher	The American Society of Mechanical Engineers (ASME)
title	Asymmetric Shielding Mechanisms in the Mixed-Mode Fracture of a Glass/Epoxy Interface
type	Journal Paper
journal volume	65
journal issue	1
journal title	Journal of Applied Mechanics
identifier doi	10.1115/1.2789035
journal fristpage	25
journal lastpage	29
identifier eissn	1528-9036
keywords	Glass
keywords	Epoxy adhesives
keywords	Fracture (Process)
keywords	Mechanisms
keywords	Fracture (Materials)
keywords	Finite element analysis
keywords	Energy dissipation
keywords	Stress
keywords	Hydrostatics
keywords	Plasticity
keywords	Fracture toughness AND Steady state
tree	Journal of Applied Mechanics:;1998:;volume( 065 ):;issue: 001
contenttype	Fulltext

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