Finsler Geometry of Nonlinear Elastic Solids with Internal Structure

نویسنده

  • John D Clayton
چکیده

Concepts from Finsler differential geometry are applied towards a theory of deformable continua with internal structure. The general theory accounts for finite deformation, nonlinear elasticity, and various kinds of structural features in a solid body. The general kinematic structure of the theory includes macroscopic and microscopic displacement fields – i.e., a multiscale representation – whereby the latter are represented mathematically by the director vector of pseudo-Finsler space, not necessarily of unit magnitude. A physically appropriate fundamental (metric) tensor is introduced, leading to affine and nonlinear connections. A deformation gradient tensor is defined via differentiation of the macroscopic motion field, and another metric indicative of strain in the body is a function of this gradient. A total energy functional of strain, referential microscopic coordinates, and horizontal covariant derivatives of the latter is introduced. Variational methods are applied to derive Euler–Lagrange equations and Neumann boundary conditions. The theory is shown to encompass existing continuum physics models such as micromorphic, micropolar, strain gradient, phase field, and conventional nonlinear elasticity models, and it can reduce to such models when certain assumptions on geometry, kinematics, and energy functionals are imposed. The theory is applied to analyze two physical problems in crystalline solids: shear localization/fracture in a two-dimensional body and cavitation in a spherical body. In these examples, a conformal or Weyl-type transformation of the fundamental tensor enables a description of dilatation associated, respectively, with cleavage surface roughness and nucleation of voids or vacancies. For the shear localization problem, the Finsler theory is able to accurately reproduce the surface energy of Griffith’s fracture mechanics, and it predicts dilatation-induced toughening as observed in experiments on brittle crystals. For the cavitationproblem, the Finsler theory is able to accurately reproduce the vacancy formation energy at a nanoscale resolution, and various solutions describe localized cavitation at the core of the body and/or distributed dilatation and softening associated with amorphization as observed in atomic simulations, with relative stability of solutions depending on the regularization length. Published by Elsevier B.V. ∗ Correspondence to: Courant Institute of Mathematical Sciences, 503 Warren Weaver Hall, New York, NY 10012, USA. E-mail addresses: [email protected], [email protected], [email protected]. 1 Visiting faculty. http://dx.doi.org/10.1016/j.geomphys.2016.11.011 0393-0440/Published by Elsevier B.V. J.D. Clayton / Journal of Geometry and Physics 112 (2017) 118–146 119

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تاریخ انتشار 2017