首页|The configurational force concept in elastic-plastic fracture mechanics - Instructive examples
The configurational force concept in elastic-plastic fracture mechanics - Instructive examples
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This paper deals with the determination of the crack driving force in elastic-plastic materials and its correlation with the J-lntegral approach. In a real elastic-plastic material, the conventional J-integral cannot describe the crack driving force. This problem has been solved in Simha et al. [1], where the configurational force approach was used to evaluate in a new way the J-integral under incremental plasticity conditions. The crack driving force in a homogeneous elastic-plastic material, J_(tip), is given by the sum of the nominally applied far-field crack driving force, J_(far), and the plasticity influence term, C_P, which accounts for the shielding or anti-shielding effect of plasticity. In this study, the incremental plasticity J-integral and the crack driving force are considered for a stationary and a growing crack.
configurational forceJ-Integralcrack driving forceelastic-plastic materialcrack propagationmonotonic and cyclic loading
R. Schoengrundner、O. Kolednik、F.D. Fischer
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Materials Center Leoben Forschung GmbH, Leoben, Austria
Erich Schmid Institute of Materials Science, Austrian Academy of Science, Leoben, Austria
Institute of Mechanics, Montanuniversitat, Leoben, Austria
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