An efficient numerical method for the resolution of the Kirchhoff-Love dynamic plate equation

Eliane Bécache; Grégoire Derveaux; Patrick Joly

doi:10.1002/num.20041

An efficient numerical method for the resolution of the Kirchhoff-Love dynamic plate equation

Eliane Bécache
, Grégoire Derveaux
, Patrick Joly

Research output: Contribution to journal › Article › peer-review

Abstract

We solve numerically the Kirchhoff-Love dynamic plate equation for an anisotropic heterogeneous material using a spectral method. A mixed velocity-moment formulation is proposed for the space approximation allowing the use of classical Lagrange finite elements. The benefit of using high order elements is shown through a numerical dispersion analysis. The system resulting from this spatial discretization is solved analytically. Hence this method is particularly efficient for long duration experiments. This time evolution method is compared with explicit and implicit finite differences schemes in terms of accuracy and computation time.

Original language	English
Pages (from-to)	323-348
Number of pages	26
Journal	Numerical Methods for Partial Differential Equations
Volume	21
Issue number	2
DOIs	https://doi.org/10.1002/num.20041
Publication status	Published - 1 Jan 2005

Keywords

Kirchhoff-Love plate model
Mass lumping
Mixed finite elements
Numerical dispersion
Spectral method

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10.1002/num.20041

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abstract = "We solve numerically the Kirchhoff-Love dynamic plate equation for an anisotropic heterogeneous material using a spectral method. A mixed velocity-moment formulation is proposed for the space approximation allowing the use of classical Lagrange finite elements. The benefit of using high order elements is shown through a numerical dispersion analysis. The system resulting from this spatial discretization is solved analytically. Hence this method is particularly efficient for long duration experiments. This time evolution method is compared with explicit and implicit finite differences schemes in terms of accuracy and computation time.",

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N2 - We solve numerically the Kirchhoff-Love dynamic plate equation for an anisotropic heterogeneous material using a spectral method. A mixed velocity-moment formulation is proposed for the space approximation allowing the use of classical Lagrange finite elements. The benefit of using high order elements is shown through a numerical dispersion analysis. The system resulting from this spatial discretization is solved analytically. Hence this method is particularly efficient for long duration experiments. This time evolution method is compared with explicit and implicit finite differences schemes in terms of accuracy and computation time.

AB - We solve numerically the Kirchhoff-Love dynamic plate equation for an anisotropic heterogeneous material using a spectral method. A mixed velocity-moment formulation is proposed for the space approximation allowing the use of classical Lagrange finite elements. The benefit of using high order elements is shown through a numerical dispersion analysis. The system resulting from this spatial discretization is solved analytically. Hence this method is particularly efficient for long duration experiments. This time evolution method is compared with explicit and implicit finite differences schemes in terms of accuracy and computation time.

KW - Kirchhoff-Love plate model

KW - Mass lumping

KW - Mixed finite elements

KW - Numerical dispersion

KW - Spectral method

UR - https://www.scopus.com/pages/publications/14744305929

U2 - 10.1002/num.20041

DO - 10.1002/num.20041

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EP - 348

JO - Numerical Methods for Partial Differential Equations

JF - Numerical Methods for Partial Differential Equations

IS - 2

ER -

An efficient numerical method for the resolution of the Kirchhoff-Love dynamic plate equation

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Keywords

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