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An isogeometric finite element formulation for boundary and shell viscoelasticity based on a multiplicative surface deformation split

Abstract

This work presents a numerical formulation to model isotropic viscoelastic material behavior for membranes and thin shells. The surface and the shell theory are formulated within a curvilinear coordinate system,which allows the representation of general surfaces and deformations. The kinematics follow from Kirchhoff–Love theory and the discretization makes use of isogeometric shape functions. A multiplicative split of the surface deformation gradient is employed, such that an intermediate surface configuration is introduced. The surface metric and curvature of this intermediate configuration follow from the solution of nonlinear evolution laws—ordinary differential equations—that stem from a generalized viscoelastic solid model. The evolution laws are integrated numerically with the implicit Euler scheme and linearized within the Newton–Raphson scheme of the nonlinear finite element framework. The implementation of membrane and bending viscosity is verified with the help of analytical solutions and shows ideal convergence behavior. The chosen numerical examples capture large deformations and typical viscoelasticity behavior, such as creep, relaxation, and strain rate dependence. It is also shown that the proposed formulation can be straightforwardly applied to model boundary viscoelasticity of 3D bodies.

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Keywords

Details

Category:
Articles
Type:
artykuły w czasopismach
Published in:
INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN ENGINEERING no. 123, pages 5570 - 5617,
ISSN: 0029-5981
Language:
English
Publication year:
2022
Bibliographic description:
Paul K., Sauer R.: An isogeometric finite element formulation for boundary and shell viscoelasticity based on a multiplicative surface deformation split// INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN ENGINEERING -Vol. 123,iss. 22 (2022), s.5570-5617
DOI:
Digital Object Identifier (open in new tab) 10.1002/nme.7080
Sources of funding:
  • Free publication
Verified by:
Gdańsk University of Technology

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