A computational approach to obtain nonlinearly elastic constitutive relations of special Cosserat rods
Arora A, Kumar A, Steinmann P (2019)
Publication Type: Journal article
Publication year: 2019
Journal
Book Volume: 350
Pages Range: 295-314
DOI: 10.1016/j.cma.2019.02.032
Abstract
We present a computational framework to obtain nonlinearly elastic constitutive relations of one-dimensional continua modeled as special Cosserat rods. The kinematics of the recently proposed Helical Cauchy–Born rule is used to construct a family of six-parameter (corresponding to the six strain measures of rod theory) helical rod configurations which are subjected to uniform strain field along their arc-length. This uniformity along the rod's arc-length results in the reduction of three-dimensional equations of elasticity to just the rod's cross-section which further allows us to obtain the induced force, moment and stiffnesses of the rod by solving a nonlinear cross-sectional warping problem for every state of strain. The formulation is general in that the rod's material could obey arbitrary three-dimensional hyperelastic constitutive relations. A nonlinear finite element formulation is presented to solve the cross-sectional warping problem and further obtain the induced force, moment and stiffnesses numerically. Several numerical examples are presented illustrating warping due to bending, shearing and torsion in rectangular as well as circular rods and how the warping affects stiffnesses. We also obtain all the stiffnesses of helically reinforced tubes and show the variation in their stiffnesses with the tube's fiber angle.
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APA:
Arora, A., Kumar, A., & Steinmann, P. (2019). A computational approach to obtain nonlinearly elastic constitutive relations of special Cosserat rods. Computer Methods in Applied Mechanics and Engineering, 350, 295-314. https://dx.doi.org/10.1016/j.cma.2019.02.032
MLA:
Arora, Abhishek, Ajeet Kumar, and Paul Steinmann. "A computational approach to obtain nonlinearly elastic constitutive relations of special Cosserat rods." Computer Methods in Applied Mechanics and Engineering 350 (2019): 295-314.
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