Determination of effective stress intensity factors under mixed-mode from digital image correlation fields in presence of contact stresses and plasticity

Thomas Bonniot; Véronique Doquet; Si Hai Mai

doi:10.1111/str.12332

Determination of effective stress intensity factors under mixed-mode from digital image correlation fields in presence of contact stresses and plasticity

Thomas Bonniot
, Véronique Doquet
, Si Hai Mai

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

Abstract

Digital image correlation (DIC) is more and more popular to monitor fatigue crack growth and to determine the stress intensity factors. However, the posttreatment of the recorded displacement fields becomes tricky when the crack faces are not stress-free and when crack tip plasticity becomes significant. Several posttreatment methods to locate the crack tip and measure the effective stress intensity factors in such cases are compared, using finite element method-computed displacement fields, and then used on real DIC fields. An approach coupling DIC and finite element method is proposed to estimate the contact stresses along the crack.

Original language	English
Article number	e12332
Journal	Strain
Volume	56
Issue number	1
DOIs	https://doi.org/10.1111/str.12332
Publication status	Published - 1 Feb 2020
Externally published	Yes

Keywords

DIC
Mode I+II
Mode II
contact
crack-tip plasticity
fatigue crack
friction
nonproportional mixed mode

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10.1111/str.12332

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title = "Determination of effective stress intensity factors under mixed-mode from digital image correlation fields in presence of contact stresses and plasticity",

abstract = "Digital image correlation (DIC) is more and more popular to monitor fatigue crack growth and to determine the stress intensity factors. However, the posttreatment of the recorded displacement fields becomes tricky when the crack faces are not stress-free and when crack tip plasticity becomes significant. Several posttreatment methods to locate the crack tip and measure the effective stress intensity factors in such cases are compared, using finite element method-computed displacement fields, and then used on real DIC fields. An approach coupling DIC and finite element method is proposed to estimate the contact stresses along the crack.",

keywords = "DIC, Mode I+II, Mode II, contact, crack-tip plasticity, fatigue crack, friction, nonproportional mixed mode",

author = "Thomas Bonniot and V{\'e}ronique Doquet and Mai, \{Si Hai\}",

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year = "2020",

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AU - Bonniot, Thomas

AU - Doquet, Véronique

AU - Mai, Si Hai

PY - 2020/2/1

Y1 - 2020/2/1

N2 - Digital image correlation (DIC) is more and more popular to monitor fatigue crack growth and to determine the stress intensity factors. However, the posttreatment of the recorded displacement fields becomes tricky when the crack faces are not stress-free and when crack tip plasticity becomes significant. Several posttreatment methods to locate the crack tip and measure the effective stress intensity factors in such cases are compared, using finite element method-computed displacement fields, and then used on real DIC fields. An approach coupling DIC and finite element method is proposed to estimate the contact stresses along the crack.

AB - Digital image correlation (DIC) is more and more popular to monitor fatigue crack growth and to determine the stress intensity factors. However, the posttreatment of the recorded displacement fields becomes tricky when the crack faces are not stress-free and when crack tip plasticity becomes significant. Several posttreatment methods to locate the crack tip and measure the effective stress intensity factors in such cases are compared, using finite element method-computed displacement fields, and then used on real DIC fields. An approach coupling DIC and finite element method is proposed to estimate the contact stresses along the crack.

KW - DIC

KW - Mode I+II

KW - Mode II

KW - contact

KW - crack-tip plasticity

KW - fatigue crack

KW - friction

KW - nonproportional mixed mode

UR - https://www.scopus.com/pages/publications/85074836291

U2 - 10.1111/str.12332

DO - 10.1111/str.12332

M3 - Article

AN - SCOPUS:85074836291

SN - 0039-2103

VL - 56

JO - Strain

JF - Strain

IS - 1

M1 - e12332

ER -

Determination of effective stress intensity factors under mixed-mode from digital image correlation fields in presence of contact stresses and plasticity

Abstract

Keywords

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