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First-Order Shape Derivative of the Energy for Elastic Plates with Rigid Inclusions and Interfacial Cracks

E. M. Rudoy, В. В. Щербаков

2020Applied Mathematics & Optimization32 citationsDOIOpen Access PDF

Abstract

Abstract Within the framework of Kirchhoff–Love plate theory, we analyze a variational model for elastic plates with rigid inclusions and interfacial cracks. The main feature of the model is a fully coupled nonpenetration condition that involves both the normal component of the longitudinal displacements and the normal derivative of the transverse deflection of the crack faces. Without making any artificial assumptions on the crack geometry and shape variation, we prove that the first-order shape derivative of the potential deformation energy is well defined and provide an explicit representation for it. The result is applied to derive the Griffith formula for the energy release rate associated with crack extension.

Topics & Concepts

Deflection (physics)MathematicsDerivative (finance)GeometryMaterial derivativeMathematical analysisElastic energyDeformation (meteorology)Second derivativeClassical mechanicsMaterials sciencePhysicsComposite materialQuantum mechanicsFinancial economicsEconomicsContact Mechanics and Variational InequalitiesNumerical methods in engineeringComposite Material Mechanics