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Visco-Elastic Nonlinear Constitutive Model for the Large Displacement Analysis of Multibody Systems

Posted on:2012-07-16Degree:Ph.DType:Dissertation
University:University of Illinois at ChicagoCandidate:Mohamed, Abdelnasser AFull Text:PDF
GTID:1462390011964762Subject:Engineering
Abstract/Summary:
Although all known materials have internal damping that leads to energy dissipation, most existing large deformation visco-elastic finite element formulations are based on linear constitutive models or on nonlinear constitutive models that can be used in the framework of an incremental co-rotational finite element solution procedure.;In this investigation, a new objective nonlinear visco-elastic constitutive model that can be implemented in non-incremental large rotation and large deformation finite element formulations is developed. This new model is based on developing a simple linear relationship between the damping forces and the rates of deformation vector gradients. The deformation vector gradients can be defined using the decomposition of the matrix of position vector gradients. In this investigation, the decomposition associated with the use of the tangent frame that leads to QR decomposition is employed to define the matrix of deformation gradients that enter into the formulation of the visco-elastic constitutive model developed in this investigation.;Using the relationship between the deformation gradients and the components of the Green-Lagrange strain tensor, it is shown that the damping forces depend nonlinearly on the strains and linearly on the classical strain rates. The relationship between the damping forces and strains and their rates are used to develop a new visco-elastic model that satisfies the objectivity requirements and leads to zero strain rates under an arbitrary rigid body displacement.;The linear visco-elastic Kelvin-Voigt model frequently used in the literature can be obtained as a special case of the proposed nonlinear model when only two visco-elastic coefficients are used. As demonstrated in this investigation, the use of two visco-elastic coefficients only leads to viscous coupling between the deformation gradients. The model developed in this investigation can be used in the framework of large deformation and large rotation non-incremental solution procedure without the need for using existing co-rotational finite element formulations.
Keywords/Search Tags:Large, Visco-elastic, Finite element formulations, Deformation, Model, Nonlinear, Leads, Damping
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