Crack-tip constraint effects on creep fracture

A three-term expansion describing the crack tip fields in steady power-law creeping solids is used in a small-scale damage microstructural approach to study the initial stages of creep fracture under plane strain mode I loading conditions. These fields contain three important parameters. The first o...

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Published inEngineering fracture mechanics Vol. 65; no. 4; pp. 467 - 490
Main Authors Nguyen, Ba-Nghiep, Onck, Patrick, van der Giessen, Erik
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.03.2000
Subjects
Cavitation
Constraint effect
Creep
Microstructural model
Constraint effect
Creep
Cavitation
Microstructural model
Online AccessGet full text
ISSN0013-7944
1873-7315
DOI10.1016/S0013-7944(99)00127-7

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Abstract A three-term expansion describing the crack tip fields in steady power-law creeping solids is used in a small-scale damage microstructural approach to study the initial stages of creep fracture under plane strain mode I loading conditions. These fields contain three important parameters. The first one is C ∗, which sets the loading level, and the remaining, A ∗ 2 and σ ∞, account for the constraint effect imposed by the specific geometry and loading configuration. The microstructural model incorporates a process window around the tip of the crack, which contains a large number of grains that are represented discretely by so-called grain elements. The grain boundaries are described by interface elements that incorporate the principal damage mechanisms, including cavity nucleation, diffusive-creeping cavity growth and grain boundary sliding. The process window is surrounded by a standard creeping continuum which is subject to remote boundary conditions corresponding to the crack tip fields in a steadily creeping material. Numerical results of the model are presented for a range of constraints using values of A ∗ 2 and σ ∞ that correspond to typical test specimens. The effect of crack-tip constraints is demonstrated and explained for material parameter sets that give rise to either ductile or brittle creep fracture processes.
AbstractList A three-term expansion describing the crack tip fields in steady power-law creeping solids is used in a small-scale damage microstructural approach to study the initial stages of creep fracture under plane strain mode I loading conditions. These fields contain three important parameters. The first one is C ∗, which sets the loading level, and the remaining, A ∗ 2 and σ ∞, account for the constraint effect imposed by the specific geometry and loading configuration. The microstructural model incorporates a process window around the tip of the crack, which contains a large number of grains that are represented discretely by so-called grain elements. The grain boundaries are described by interface elements that incorporate the principal damage mechanisms, including cavity nucleation, diffusive-creeping cavity growth and grain boundary sliding. The process window is surrounded by a standard creeping continuum which is subject to remote boundary conditions corresponding to the crack tip fields in a steadily creeping material. Numerical results of the model are presented for a range of constraints using values of A ∗ 2 and σ ∞ that correspond to typical test specimens. The effect of crack-tip constraints is demonstrated and explained for material parameter sets that give rise to either ductile or brittle creep fracture processes.
Author van der Giessen, Erik
Onck, Patrick
Nguyen, Ba-Nghiep
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Issue 4
Keywords Constraint effect
Creep
Cavitation
Microstructural model
Language English
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Snippet A three-term expansion describing the crack tip fields in steady power-law creeping solids is used in a small-scale damage microstructural approach to study...
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SubjectTerms Cavitation
Constraint effect
Creep
Microstructural model
Title Crack-tip constraint effects on creep fracture
URI https://dx.doi.org/10.1016/S0013-7944(99)00127-7
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