SECOND-ORDER FINITE DIFFERENCE APPROXIMATIONS OF THE UPPER-CONVECTED TIME DERIVATIVE\ast
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Data
2021-01-01
Autores
Medeiros, Debora D.
Notsu, Hirofumi
Oishi, Cassio M. [UNESP]
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Editor
Siam Publications
Resumo
In this work, new finite difference schemes are presented for dealing with the upper convected time derivative in the context of the generalized Lie derivative. The upper-convected time derivative, which is usually encountered in the constitutive equation of the popular viscoelastic models, is reformulated in order to obtain approximations of second-order in time for solving a simplified constitutive equation in one and two dimensions. The theoretical analysis of the truncation errors of the methods takes into account the linear and quadratic interpolation operators based on a Lagrangian framework. Numerical experiments illustrating the theoretical results for the model equation defined in one and two dimensions are included. Finally, the finite difference approximations of second-order in time are also applied for solving a two-dimensional Oldroyd-B constitutive equation subjected to a prescribed velocity field at different Weissenberg numbers.
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generalized Lie derivative, Lagrangian scheme, finite difference method
Como citar
Siam Journal On Numerical Analysis. Philadelphia: Siam Publications, v. 59, n. 6, p. 2955-2988, 2021.