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Article Dans Une Revue SIAM Journal on Control and Optimization Année : 2021

Shape Derivative for Some Eigenvalue Functionals in Elasticity Theory

Résumé

This work is the second part of a previous paper which was devoted to scalar problems. Here we study the shape derivative of eigenvalue problems of elasticity theory for various kinds of boundary conditions, that is Dirichlet, Neumann, Robin, and Wentzell boundary conditions. We also study the case of composite materials, having in mind applications in the sensitivity analysis of mechanical devices manufactured by additive printing. The main idea, which rests on the computation of the derivative of a minimum with respect to a parameter, was successfully applied in the scalar case in the first part of this paper and is here extended to more interesting situations in the vectorial case (linear elasticity), with applications in additive manufacturing. These computations for eigenvalues in the elasticity problem for generalized boundary conditions and for composite elastic structures constitute the main novelty of this paper. The results obtained here also show the efficiency of this method for such calculations whereas the methods used previously even for classical clamped or transmission boundary conditions are more lengthy or, are based on various simplifying assumptions, such as the simplicity of the eigenvalue or the existence of a shape derivative.
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Dates et versions

hal-03591473 , version 1 (28-02-2022)

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Fabien Caubet, Marc Dambrine, Rajesh Mahadevan. Shape Derivative for Some Eigenvalue Functionals in Elasticity Theory. SIAM Journal on Control and Optimization, 2021, 59 (2), pp.1218-1245. ⟨10.1137/20M1343105⟩. ⟨hal-03591473⟩
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