A dislocation approach for the thermal stress intensity factors of a crack in an infinite anisotropic medium under uniform heat flow

L. Liu; G. A. Kardomateas; J. W. Holmes

A dislocation approach for the thermal stress intensity factors of a crack in an infinite anisotropic medium under uniform heat flow

L. Liu^*, G. A. Kardomateas, J. W. Holmes

^*Corresponding author for this work

Georgia Institute of Technology

Research output: Contribution to conference › Paper › peer-review

Abstract

On the basis of the two-dimensional theory of anisotropic thermoelasticity, a solution is given for the thermal stress intensity factors due to the obstruction of a uniform heat flux by an insulated line crack in a generally anisotropic body. The crack is replaced by continuous distributions of sources of temperature discontinuity and dislocations. First, the particular thermoelastic dislocation solutions for an infinite plane are obtained. Then the corresponding isothermal solutions are superposed to satisfy the traction-free conditions on the crack surfaces. The dislocation solutions are applied to calculate the thermal stress intensity factors, which are validated by the exact solutions. The effects of the uniform heat flux, the ply angle and the crack length are investigated.

Original language	English
Pages	1379-1392
Number of pages	14
Publication status	Published - 2004
Externally published	Yes
Event	SAMPE 2004 - Long Beach, CA, United States Duration: 16 May 2004 → 20 May 2004

Conference

Conference	SAMPE 2004
Country/Territory	United States
City	Long Beach, CA
Period	16/05/04 → 20/05/04

Keywords

Damage Tolerance
Failure Analysis
Fire Resistance
Fracture Mechanics
High Temperature Composites
Thermal Analysis

Cite this

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title = "A dislocation approach for the thermal stress intensity factors of a crack in an infinite anisotropic medium under uniform heat flow",

abstract = "On the basis of the two-dimensional theory of anisotropic thermoelasticity, a solution is given for the thermal stress intensity factors due to the obstruction of a uniform heat flux by an insulated line crack in a generally anisotropic body. The crack is replaced by continuous distributions of sources of temperature discontinuity and dislocations. First, the particular thermoelastic dislocation solutions for an infinite plane are obtained. Then the corresponding isothermal solutions are superposed to satisfy the traction-free conditions on the crack surfaces. The dislocation solutions are applied to calculate the thermal stress intensity factors, which are validated by the exact solutions. The effects of the uniform heat flux, the ply angle and the crack length are investigated.",

keywords = "Damage Tolerance, Failure Analysis, Fire Resistance, Fracture Mechanics, High Temperature Composites, Thermal Analysis",

author = "L. Liu and Kardomateas, {G. A.} and Holmes, {J. W.}",

year = "2004",

language = "English",

pages = "1379--1392",

note = "SAMPE 2004 ; Conference date: 16-05-2004 Through 20-05-2004",

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T1 - A dislocation approach for the thermal stress intensity factors of a crack in an infinite anisotropic medium under uniform heat flow

AU - Liu, L.

AU - Kardomateas, G. A.

AU - Holmes, J. W.

PY - 2004

Y1 - 2004

N2 - On the basis of the two-dimensional theory of anisotropic thermoelasticity, a solution is given for the thermal stress intensity factors due to the obstruction of a uniform heat flux by an insulated line crack in a generally anisotropic body. The crack is replaced by continuous distributions of sources of temperature discontinuity and dislocations. First, the particular thermoelastic dislocation solutions for an infinite plane are obtained. Then the corresponding isothermal solutions are superposed to satisfy the traction-free conditions on the crack surfaces. The dislocation solutions are applied to calculate the thermal stress intensity factors, which are validated by the exact solutions. The effects of the uniform heat flux, the ply angle and the crack length are investigated.

AB - On the basis of the two-dimensional theory of anisotropic thermoelasticity, a solution is given for the thermal stress intensity factors due to the obstruction of a uniform heat flux by an insulated line crack in a generally anisotropic body. The crack is replaced by continuous distributions of sources of temperature discontinuity and dislocations. First, the particular thermoelastic dislocation solutions for an infinite plane are obtained. Then the corresponding isothermal solutions are superposed to satisfy the traction-free conditions on the crack surfaces. The dislocation solutions are applied to calculate the thermal stress intensity factors, which are validated by the exact solutions. The effects of the uniform heat flux, the ply angle and the crack length are investigated.

KW - Damage Tolerance

KW - Failure Analysis

KW - Fire Resistance

KW - Fracture Mechanics

KW - High Temperature Composites

KW - Thermal Analysis

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M3 - Paper

AN - SCOPUS:4544348876

SP - 1379

EP - 1392

T2 - SAMPE 2004

Y2 - 16 May 2004 through 20 May 2004

ER -

A dislocation approach for the thermal stress intensity factors of a crack in an infinite anisotropic medium under uniform heat flow

Abstract

Conference

Keywords

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