Relative Bending Energy for Weakly Prestrained Shells
Abstract
In this paper, we derive a dimensionally reduced model for a thin film prestrained with a given incompatible Riemannian metric: Gh(x',x3)=I3+2hγ\,S(x')+2hγ/2\,x3B(x')+h.o.t, \,\,\,γ>2, where 0<h 1 is the thickness of the film. The problem is studied rigorously by using a variational approach and establishing the -convergence of the non-Euclidean version of the nonlinear elasticity functional. It is shown that the residual nonlinear elastic energy scales as O(hγ+2) as h 0.
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