A domain independent integral expression for the crack extension force of a curved crack in three dimensions |
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Authors: | K Eriksson |
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Institution: | Division of Solid Mechanics, Luleå University of Technology, SE 971 87 Luleå, Sweden |
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Abstract: | An integral expression that is domain independent in curvilinear coordinates and compatible with zero divergence of Eshelby's (Phil. Trans. Roy. Soc. (London) 244 (1951) 87.) energy momentum tensor was obtained from the principle of virtual work. By applying Eshelby's definition of the force on a material defect a general expression of the crack extension force for a curved crack in three dimensions, here called the F-integral, was derived from the domain independent integral expression. The F-integral is given explicitly for a number of curved cracks and found to be in agreement with previously known solutions, when available. The influence of crack surface and crack front curvature upon the various forms of the F-integral is discussed. The F-integral presented in this work is a generalisation of the J-integral (Rice, J. Appl. Mech. 35 (1968) 379.) to curved cracks in orthogonal curvilinear coordinates. |
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Keywords: | A Energy release rate B Crack mechanics B Elastic material C Conservation integrals C Energy methods |
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