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Intrinsic Nonlinear Elasticity: An Exterior Calculus Formulation

Ramy Rashad, Andrea Brugnoli, Federico Califano, Erwin Luesink, Stefano Stramigioli

2023Journal of Nonlinear Science10 citationsDOIOpen Access PDF

Abstract

Abstract In this paper, we formulate the theory of nonlinear elasticity in a geometrically intrinsic manner using exterior calculus and bundle-valued differential forms. We represent kinematics variables, such as velocity and rate of strain, as intensive vector-valued forms, while kinetics variables, such as stress and momentum, as extensive covector-valued pseudo-forms. We treat the spatial, material and convective representations of the motion and show how to geometrically convert from one representation to the other. Furthermore, we show the equivalence of our exterior calculus formulation to standard formulations in the literature based on tensor calculus. In addition, we highlight two types of structures underlying the theory: first, the principal bundle structure relating the space of embeddings to the space of Riemannian metrics on the body and how the latter represents an intrinsic space of deformations and second, the de Rham complex structure relating the spaces of bundle-valued forms to each other.

Topics & Concepts

MathematicsTensor calculusDifferential formNonlinear systemBundleKinematicsTime-scale calculusVector bundleEquivalence (formal languages)Vector calculusElasticity (physics)Mathematical analysisTensor (intrinsic definition)Calculus (dental)Pure mathematicsTensor fieldClassical mechanicsMultivariable calculusExact solutions in general relativityControl engineeringComposite materialDentistryPhysicsEngineeringMaterials scienceQuantum mechanicsMedicineElasticity and Material ModelingModel Reduction and Neural NetworksDynamics and Control of Mechanical Systems
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