The paper presents a method for the more accurate solution of C0 acoustic vibration problems in finite element (FE) analysis by postprocessing. For each frequency, the method uses the computed eigenvector and the Helmholtz equation to calculate gradients of dependent variables at element centers. Gradients at element centers are then used as sampling points in a patch recovery technique to obtain gradients at nodes. The nodal primary field and its gradients are used to interpolate the dependent variables over each element. This interpolation yields the potential and kinetic energies of each element, and hence a Rayleigh quotient that provides an accurate eigenvalue. One‐, two‐ and three‐dimensional vibration problems are used as numerical examples.
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1 May 1998
Research Article|
May 01 1998
Improvement of C vibration problems using Helmholtz equation to recover nodal gradients Available to Purchase
Chin‐Hsu Lin
Chin‐Hsu Lin
Engineering Technology Associates, Inc., Madison Heights, Michigan, USA
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Publisher: Emerald Publishing
Online ISSN: 1758-7077
Print ISSN: 0264-4401
© MCB UP Limited
1998
Engineering Computations (1998) 15 (3): 288–311.
Citation
Lin C (1998), "Improvement of C vibration problems using Helmholtz equation to recover nodal gradients". Engineering Computations, Vol. 15 No. 3 pp. 288–311, doi: https://doi.org/10.1108/02644409810208480
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