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On the Energy Release Rate at the Crack Tips in a Finite Pre-Strained Strip

Surkay D. Akbarov1,2, Arzu Turan3

Corresponding author. Yildiz Technical University, Faculty of Mechanical Engineering, Department of Mechanical Engineering, Yildiz Campus, 34349, Besiktas, Istanbul, Turkey. ak-barov@yildiz.edu.tr
Institute of Mathematics and Mechanics of National Academy of Sciences of Azerbaijan, 37041,Baku, Azerbaijan.
Yildiz Technical University, Faculty of Chemistry and Metallurgy, Dep. Math. Eng., Davutpasa Campus No:127 Topkapi 34010, Istanbul, Turkey.

Computers, Materials & Continua 2011, 24(3), 257-270. https://doi.org/10.3970/cmc.2011.024.257

Abstract

The influence of the initial finite stretching or compressing of the strip containing a single crack on the Energy Release Rate (ERR) and on the SIF of mode I at the crack tips is studied by the use of the Three-Dimensional Linearized Theory of Elasticity. It is assumed that the edges of the crack are parallel to the face planes of the strip and the ends of the strip are simply supported. The initial finite strain state arises by the uniformly distributed normal forces acting at the ends of the strip. The additional normal forces act on the edges of the crack. The elasticity relations for the strip material are given by the harmonic type potential. The corresponding boundary-value problem is solved by employing FEM. The numerical results on the influence of the initial finite strain state the values of the ERR and of the SIF of mode I are presented. In particular, it is established that the values of the ERR and of the SIF of mode I decrease (increase) monotonically with an increase (decrease) in the initial stretching (compression).

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Cite This Article

S. D. . Akbarov and A. . Turan, "On the energy release rate at the crack tips in a finite pre-strained strip," Computers, Materials & Continua, vol. 24, no.3, pp. 257–270, 2011.



cc This work is licensed under a Creative Commons Attribution 4.0 International License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
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