J-Integral Calculation by Finite Element Processing of Measured Full-Field Surface Displacements

A Luxmoore; A Stratulat; A.F. Cinar; AA Griffith; American Society for Testing and Materials; B Pan; B Pan; BF Brown; BK Bay; CF Shih; D. Hollis; DE Duffy; DM Parks; F Caimmi; FP Chiang; G Irwin; GP Cherepanov; J Kovac; J Morton; J Poissant; J Réthoré; J Réthoré; JA Begley; JC Newman; JC Newman; JD Helm; JM Huntley; JR Rice; JR Rice; JR Rice; JW Hutchinson; M Poncelet; M. Mostafavi; MA Sutton; MC Walters; ML Williams; ML Williams; MR Molteno; MS Kirugulige; MS Kirugulige; MY Tsai; NL Fazzalari; R Moutou Pitti; R Zhang; RN Parkins; S Liu; S Rahimi; S Roux; S Suresh; S Yoneyama; S Yoneyama; S.M. Barhli; SM Barhli; SM Wiederhorn; T Nishioka; T.J. Marrow; TC Chu; TH Becker; TH Becker; W Elber; W Elber; XK Zhu

research

J-Integral Calculation by Finite Element Processing of Measured Full-Field Surface Displacements

Authors: A Luxmoore
A Stratulat
A.F. Cinar
AA Griffith
American Society for Testing and Materials
B Pan
B Pan
BF Brown
BK Bay
CF Shih
D. Hollis
DE Duffy
DM Parks
F Caimmi
FP Chiang
G Irwin
GP Cherepanov
J Kovac
J Morton
J Poissant
J Réthoré
J Réthoré
JA Begley
JC Newman
JC Newman
JD Helm
JM Huntley
JR Rice
JR Rice
JR Rice
JW Hutchinson
M Poncelet
M. Mostafavi
MA Sutton
MC Walters
ML Williams
ML Williams
MR Molteno
MS Kirugulige
MS Kirugulige
MY Tsai
NL Fazzalari
R Moutou Pitti
R Zhang
RN Parkins
S Liu
S Rahimi
S Roux
S Suresh
S Yoneyama
S Yoneyama
S.M. Barhli
SM Barhli
SM Wiederhorn
T Nishioka
T.J. Marrow
TC Chu
TH Becker
TH Becker
W Elber
W Elber
XK Zhu
Publication date: 1 January 2017
Publisher: 'Springer Science and Business Media LLC'
Doi

Abstract

© 2017 The Author(s)A novel method has been developed based on the conjoint use of digital image correlation to measure full field displacements and finite element simulations to extract the strain energy release rate of surface cracks. In this approach, a finite element model with imported full-field displacements measured by DIC is solved and the J-integral is calculated, without knowledge of the specimen geometry and applied loads. This can be done even in a specimen that develops crack tip plasticity, if the elastic and yield behaviour of the material are known. The application of the method is demonstrated in an analysis of a fatigue crack, introduced to an aluminium alloy compact tension specimen (Al 2024, T351 heat condition)