Stress Intensity Factor Variation along a Semicircular Surface Flaw in a Finite-thickness Plate
نویسنده
چکیده
-The stress intensity factor variation along a semicircular surface law in a three dimensional solid @late) of finite thickness is derived. This is done using a nested alternating procedure which employs the complete analytical solution for an arbitrarily loaded circular flaw embedded in an infinite solid. The method accounts for both the front-surface/backsurface as well as the boundary-crack interactions, as opposed to the method of Thresher and Smith (J. appl. Me& 39, 195-200, 1972) which considered only the boundary-crack interactions. In the present method, the residual tractions on the front and back surfaces, during the alternating procedure, are erased using Love’s half-space solutions. Various numerical examples of tension and flexure loads are given. Results obtained by this method are compared with available experimental and computational data.
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