Analytic Solutions to Large Deformation Problems Governed by Generalized Neo-Hookean Model

Abstract

This paper addresses some fundamental issues in nonconvex analysis. By using pure complementary energy principle proposed by the author, a class of fully nonlinear partial diforerential equations in nonlinear elasticity is able to converted a unified algebraic equation, a complete set of analytical solutions are obtained for 3-D finite deformation problems governed by generalized neo-Hookean model. Both global and local extremal solutions to the nonconvex variational problem are identifored by a triality theory. Connection between challenges in nonlinear analysis and NP-hard problems in computational science is revealed. Results show that Legendre-Hadamard condition can only guarantee ellipticity for convex problems. For nonconvex systems, the ellipticity depends not only on the stored energy, but also on the external force field. Uniqueness is proved based on a quasiconvexity and a generalized ellipticity condition. Application is illustrated for logarithm stored energy.