Dynamic stress intensity factors of multiple cracks in a functionally graded orthotropic half-plane |
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Authors: | M.M. MonfaredM. Ayatollahi |
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Affiliation: | Faculty of Engineering, Zanjan University, P.O. Box 45195-313, Zanjan, Iran |
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Abstract: | In the present paper dynamic stress intensity factor and strain energy density factor of multiple cracks in the functionally graded orthotropic half-plane under time-harmonic loading are investigated. By utilizing the Fourier transformation technique the stress fields are obtained for a functionally graded orthotropic half-plane containing a Volterra screw dislocation. The variations of the material properties are assumed to be exponential forms which the equilibrium has an analytical solution. The dislocation solution is utilized to formulate integral equation for the half-plane weakened by multiple smooth cracks under anti-plane deformation. The integral equations are of Cauchy singular type at the location of dislocation which are solved numerically to obtain the dislocation density on the faces of the cracks. The dislocation densities are employed to determined stress intensity factor and strain energy density factors (SEDFs) for multiple smooth cracks under anti-plane deformation. Numerical examples are provided to show the effects of material properties and the crack configuration on the dynamic stress intensity factors and SEDFs of the functionally graded orthotropic half-plane with multiple curved cracks. |
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Keywords: | Dynamic stress intensity factors Screw dislocation Multiple cracks Functionally graded orthotropic material |
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