Large elastic deformations of isotropic materials IV. further developments of the general theory
TLDR
In this article, the surface forces necessary to produce simple shear in a cuboid of either compressible or incompressible material and those required to generate simple torsion in a right-circular cylinder of incompressibly material are derived.Abstract:
The equations of motion, boundary conditions and stress-strain relations for a highly elastic material can be expressed in terms of the stored-energy function. This has been done in part I of this series (Rivlin 1948 a ), for both the cases of compressible and incompressible materials, following the methods given by E. & F. Cosserat for compressible materials. The stored-energy function may be defined for a particular material in terms of the invariants of strain. The form in which the equations of motion, etc., are deduced, in the previous paper, does not permit the evaluation of the forces necessary to produce a specified deformation unless the actual expression for the stored-energy function in terms of the scalar invariants of the strain is introduced. In the present paper, the equations are transformed into forms more suitable for carrying out such an explicit evaluation. As examples, the surface forces necessary to produce simple shear in a cuboid of either compressible or incompressible material and those required to produce simple torsion in a right-circular cylinder of incompressible material are derived.read more
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Journal ArticleDOI
A Theory of Large Elastic Deformation
TL;DR: In this paper, it was deduced that the general strain energy function, W, has the form W=G4 ∑ i=13(λi−1λi)2+H 4 ∑ t=13 (λi2−1 ε)2 + H 4, where the λi's are the principal stretches, G is the modulus of rigidity, and H is a new elastic constant not found in previous theories.
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Large Elastic Deformations of Isotropic Materials. III. Some Simple Problems in Cylindrical Polar Co-Ordinates
TL;DR: In this article, the authors studied the properties of simple torsion of a solid cylinder and of a hollow, cylindrical tube, and their combined simple extension and simple Torsion, and obtained the stress-strain relations and boundary conditions for an incompressible, neo-Hookean material.
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Finite strain in elastic problems
TL;DR: In this paper, the authors considered the problem of finding the components of strain corresponding with any displacement in elastic solid bodies, where the displacement is finite and the strain produced is not small enough to justify the assumption.
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