The exponentiated Hencky-logarithmic strain energy. Part I: Constitutive issues and rank-one convexity

Abstract

We investigate a family of isotropic volumetric-isochoric decoupled strain energies F W_ eH(F):=W_ eH(U):=\arraylll μk\,ek\,\| devn U\|2+2\, k\,ek\,[ tr( U)]2&if& det F>0,\\ +∞ &if & det F≤ 0, array. based on the Hencky-logarithmic (true, natural) strain tensor U, where μ>0 is the infinitesimal shear modulus, =2μ+3λ3>0 is the infinitesimal bulk modulus with λ the first Lam\'e constant, k,k are dimensionless parameters, F=∇ is the gradient of deformation, U=FT F is the right stretch tensor and devn U = U-1n tr( U)· 1\!\!1 is the deviatoric part of the strain tensor U. For small elastic strains, W_ eH approximates the classical quadratic Hencky strain energy F W_ H(F):=W_ H(U):=μ\,\| devn U\|2+2\,[ tr( U)]2, which is not everywhere rank-one convex. In plane elastostatics, i.e. n=2, we prove the everywhere rank-one convexity of the proposed family W_ eH, for k≥ 14 and k≥ 18. Moreover, we show that the corresponding Cauchy (true)-stress-true-strain relation is invertible for n=2,3 and we show the monotonicity of the Cauchy (true) stress tensor as a function of the true strain tensor in a domain of bounded distortions. We also prove that the rank-one convexity of the energies belonging to the family W_ eH is not preserved in dimension n=3.