TRANSIENT ELASTIC-PLASTIC-CREEP CRACK-TIP STRESS FIELDS UNDER LOAD-CONTROLLED LOADING

Han-Sang Lee; Dong-Jun Kim; Yun-Jae  Kim; Robert Ainsworth; Peter J Budden

doi:10.1111/ffe.12740

TRANSIENT ELASTIC-PLASTIC-CREEP CRACK-TIP STRESS FIELDS UNDER LOAD-CONTROLLED LOADING

Han-Sang Lee, Dong-Jun Kim, Yun-Jae Kim, Robert Ainsworth, Peter J Budden

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Abstract

This paper presents transient and steady state elastic-plastic-creep crack-tip stress fields under load-controlled loading conditions for a wide range of combinations of power-law plastic and creep materials. The crack-tip stress fields are characterized in terms of two parameters to accommodate the crack-tip constraint effect; the C(t)- (or C*-) integral and the βQ parameter (the Q-parameter normalized with respect to the proximity parameter to plastic collapse). For practical application, the crack-tip stress fields are re-formulated explicitly in terms of time and crack-tip stress fields for elastic-plastic and steady state creep conditions. Comparison with detailed FE results for plane strain tension and bend specimens shows that this formulation of the crack-tip stress fields agrees well with finite element results.

Original language	English
Journal	Fatigue & Fracture of Engineering Materials and Structures
Early online date	10 Nov 2017
DOIs	https://doi.org/10.1111/ffe.12740
Publication status	Published - 2017

Keywords

Elastic-plastic-creep
Transient creep
Crack-tip constraint

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10.1111/ffe.12740

paper-stress-load[3]Accepted author manuscript, 2.04 MB

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title = "TRANSIENT ELASTIC-PLASTIC-CREEP CRACK-TIP STRESS FIELDS UNDER LOAD-CONTROLLED LOADING",

abstract = "This paper presents transient and steady state elastic-plastic-creep crack-tip stress fields under load-controlled loading conditions for a wide range of combinations of power-law plastic and creep materials. The crack-tip stress fields are characterized in terms of two parameters to accommodate the crack-tip constraint effect; the C(t)- (or C*-) integral and the βQ parameter (the Q-parameter normalized with respect to the proximity parameter to plastic collapse). For practical application, the crack-tip stress fields are re-formulated explicitly in terms of time and crack-tip stress fields for elastic-plastic and steady state creep conditions. Comparison with detailed FE results for plane strain tension and bend specimens shows that this formulation of the crack-tip stress fields agrees well with finite element results.",

keywords = "Elastic-plastic-creep, Transient creep , Crack-tip constraint",

author = "Han-Sang Lee and Dong-Jun Kim and Yun-Jae Kim and Robert Ainsworth and Budden, {Peter J}",

year = "2017",

doi = "10.1111/ffe.12740",

language = "English",

journal = "Fatigue & Fracture of Engineering Materials and Structures ",

issn = "1460-2695",

publisher = "John Wiley & Sons Ltd",

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TY - JOUR

T1 - TRANSIENT ELASTIC-PLASTIC-CREEP CRACK-TIP STRESS FIELDS UNDER LOAD-CONTROLLED LOADING

AU - Lee, Han-Sang

AU - Kim, Dong-Jun

AU - Kim, Yun-Jae

AU - Ainsworth, Robert

AU - Budden, Peter J

PY - 2017

Y1 - 2017

N2 - This paper presents transient and steady state elastic-plastic-creep crack-tip stress fields under load-controlled loading conditions for a wide range of combinations of power-law plastic and creep materials. The crack-tip stress fields are characterized in terms of two parameters to accommodate the crack-tip constraint effect; the C(t)- (or C*-) integral and the βQ parameter (the Q-parameter normalized with respect to the proximity parameter to plastic collapse). For practical application, the crack-tip stress fields are re-formulated explicitly in terms of time and crack-tip stress fields for elastic-plastic and steady state creep conditions. Comparison with detailed FE results for plane strain tension and bend specimens shows that this formulation of the crack-tip stress fields agrees well with finite element results.

AB - This paper presents transient and steady state elastic-plastic-creep crack-tip stress fields under load-controlled loading conditions for a wide range of combinations of power-law plastic and creep materials. The crack-tip stress fields are characterized in terms of two parameters to accommodate the crack-tip constraint effect; the C(t)- (or C*-) integral and the βQ parameter (the Q-parameter normalized with respect to the proximity parameter to plastic collapse). For practical application, the crack-tip stress fields are re-formulated explicitly in terms of time and crack-tip stress fields for elastic-plastic and steady state creep conditions. Comparison with detailed FE results for plane strain tension and bend specimens shows that this formulation of the crack-tip stress fields agrees well with finite element results.

KW - Elastic-plastic-creep

KW - Transient creep

KW - Crack-tip constraint

U2 - 10.1111/ffe.12740

DO - 10.1111/ffe.12740

M3 - Article

SN - 1460-2695

JO - Fatigue & Fracture of Engineering Materials and Structures

JF - Fatigue & Fracture of Engineering Materials and Structures

ER -

TRANSIENT ELASTIC-PLASTIC-CREEP CRACK-TIP STRESS FIELDS UNDER LOAD-CONTROLLED LOADING

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Keywords

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