Numerical analysis of guided wave scattering by multiple cracks in plates: SH-case

M. R. Karim; M. A. Awal; T. Kundu

doi:10.1016/0013-7944(92)90226-5

Numerical analysis of guided wave scattering by multiple cracks in plates: SH-case

M. R. Karim, M. A. Awal, T. Kundu

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5 Scopus citations

Abstract

A hybrid finite element method is proposed for the analysis of guided wave scattering in a plate containing multiple subsurface cracks at arbitrary orientations. A part of the plate around the cracks (interior region) is modeled by conventional finite elements. The far-field (exterior region) is approximated by a finite number of guided wave modes. Matching at the interface between the two regions is obtained by satisfying the stress and displacement compatibility conditions. Numerical results showing the effects of cracks in a plate, in the form of changes in spectra and pulse shapes of the displacements on the surface of the plate, are presented.

Original language	English (US)
Pages (from-to)	371-380
Number of pages	10
Journal	Engineering Fracture Mechanics
Volume	42
Issue number	2
DOIs	https://doi.org/10.1016/0013-7944(92)90226-5
State	Published - May 1992

ASJC Scopus subject areas

General Materials Science
Mechanics of Materials
Mechanical Engineering

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title = "Numerical analysis of guided wave scattering by multiple cracks in plates: SH-case",

abstract = "A hybrid finite element method is proposed for the analysis of guided wave scattering in a plate containing multiple subsurface cracks at arbitrary orientations. A part of the plate around the cracks (interior region) is modeled by conventional finite elements. The far-field (exterior region) is approximated by a finite number of guided wave modes. Matching at the interface between the two regions is obtained by satisfying the stress and displacement compatibility conditions. Numerical results showing the effects of cracks in a plate, in the form of changes in spectra and pulse shapes of the displacements on the surface of the plate, are presented.",

author = "Karim, {M. R.} and Awal, {M. A.} and T. Kundu",

year = "1992",

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AU - Karim, M. R.

AU - Awal, M. A.

AU - Kundu, T.

PY - 1992/5

Y1 - 1992/5

N2 - A hybrid finite element method is proposed for the analysis of guided wave scattering in a plate containing multiple subsurface cracks at arbitrary orientations. A part of the plate around the cracks (interior region) is modeled by conventional finite elements. The far-field (exterior region) is approximated by a finite number of guided wave modes. Matching at the interface between the two regions is obtained by satisfying the stress and displacement compatibility conditions. Numerical results showing the effects of cracks in a plate, in the form of changes in spectra and pulse shapes of the displacements on the surface of the plate, are presented.

AB - A hybrid finite element method is proposed for the analysis of guided wave scattering in a plate containing multiple subsurface cracks at arbitrary orientations. A part of the plate around the cracks (interior region) is modeled by conventional finite elements. The far-field (exterior region) is approximated by a finite number of guided wave modes. Matching at the interface between the two regions is obtained by satisfying the stress and displacement compatibility conditions. Numerical results showing the effects of cracks in a plate, in the form of changes in spectra and pulse shapes of the displacements on the surface of the plate, are presented.

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JO - Engineering Fracture Mechanics

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ER -

Numerical analysis of guided wave scattering by multiple cracks in plates: SH-case

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