Article ID Journal Published Year Pages File Type
280463 International Journal of Solids and Structures 2007 14 Pages PDF
Abstract

In many cases of constitutive modeling of continua undergoing large deformations, use of corotational rates and integrals is inevitable to avoid the effects of rigid body rotations. Making corotational rates associated with specific spin tensors is a matter of interest, which can help for a better physical interpretation of the deformation. In this paper, for a given kinematic tensor function, say GG, a tensor valued function FF as well as a spin tensor Ω0 is obtained in such a way that the corotational rate of FF associated with the spin tensor Ω0, becomes equal to GG. In other words, FF is the corotational integral of GG associated with the spin tensor Ω0. Here, GG is decomposed additively into the principally diagonal and the principally off-diagonal parts. The symmetric tensors with the same principally diagonal parts have the same tensor valued corotational integrals, but associated with different spin tensors, which depends on the principally off-diagonal part. For the validity of the results, the Eulerian logarithmic strain tensor is shown to be the tensor valued corotational integral of the strain rate tensor, associated with the logarithmic spin. This result has separately been derived by Reinhardt & Dubey and Xiao et al. In addition, a specific corotational rate called Γ-rate and its associated spin tensor are introduced.

Related Topics
Physical Sciences and Engineering Engineering Civil and Structural Engineering
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