Korn's second inequality and geometric rigidity with mixed growth conditions
Abstract
Geometric rigidity states that a gradient field which is Lp-close to the set of proper rotations is necessarily Lp-close to a fixed rotation, and is one key estimate in nonlinear elasticity. In several applications, as for example in the theory of plasticity, energy densities with mixed growth appear. We show here that geometric rigidity holds also in Lp+Lq and in Lp,q interpolation spaces. As a first step we prove the corresponding linear inequality, which generalizes Korn's inequality to these spaces.
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