Fast numerical method for crack problem in the porous elastic materialc

V. Popuzin; M. Pennisi

doi:10.1007/s11012-014-9885-1

Fast numerical method for crack problem in the porous elastic materialc

V. Popuzin
, M. Pennisi

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

Abstract

The present paper discusses the crack problem in the linear porous elastic plane using the model developed by Nunziato and Cowin. With the help of Fourier transform the problem is reduced to an integral equation over the boundary of the crack. Some analytical transformations are applied to calculate the kernel of the integral equation in its explicit form. We perform a numerical collocation technique to solve the derived hyper-singular integral equation. Due to convolution type of the kernel, we apply, at each iteration step, the classical iterative conjugate gradient method in combination with the Fast Fourier technique to solve the problem in almost linear time. There are presented some numerical examples for materials of various values of porosity.

Original language	English
Pages (from-to)	2169-2179
Number of pages	11
Journal	Meccanica
Volume	49
Issue number	9
DOIs	https://doi.org/10.1007/s11012-014-9885-1
Publication status	Published - 2 Apr 2014
Externally published	Yes

Keywords

Crack problem
Fast algorithm
Hyper-singular equation
Porous material

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10.1007/s11012-014-9885-1

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abstract = "The present paper discusses the crack problem in the linear porous elastic plane using the model developed by Nunziato and Cowin. With the help of Fourier transform the problem is reduced to an integral equation over the boundary of the crack. Some analytical transformations are applied to calculate the kernel of the integral equation in its explicit form. We perform a numerical collocation technique to solve the derived hyper-singular integral equation. Due to convolution type of the kernel, we apply, at each iteration step, the classical iterative conjugate gradient method in combination with the Fast Fourier technique to solve the problem in almost linear time. There are presented some numerical examples for materials of various values of porosity.",

keywords = "Crack problem, Fast algorithm, Hyper-singular equation, Porous material",

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N2 - The present paper discusses the crack problem in the linear porous elastic plane using the model developed by Nunziato and Cowin. With the help of Fourier transform the problem is reduced to an integral equation over the boundary of the crack. Some analytical transformations are applied to calculate the kernel of the integral equation in its explicit form. We perform a numerical collocation technique to solve the derived hyper-singular integral equation. Due to convolution type of the kernel, we apply, at each iteration step, the classical iterative conjugate gradient method in combination with the Fast Fourier technique to solve the problem in almost linear time. There are presented some numerical examples for materials of various values of porosity.

AB - The present paper discusses the crack problem in the linear porous elastic plane using the model developed by Nunziato and Cowin. With the help of Fourier transform the problem is reduced to an integral equation over the boundary of the crack. Some analytical transformations are applied to calculate the kernel of the integral equation in its explicit form. We perform a numerical collocation technique to solve the derived hyper-singular integral equation. Due to convolution type of the kernel, we apply, at each iteration step, the classical iterative conjugate gradient method in combination with the Fast Fourier technique to solve the problem in almost linear time. There are presented some numerical examples for materials of various values of porosity.

KW - Crack problem

KW - Fast algorithm

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Fast numerical method for crack problem in the porous elastic materialc

Abstract

Keywords

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