Singular asymptotic expansion of the elastic solution along an edge around which material properties depend on the angular coordinate

Netta Omer; Zohar Yosibash

doi:10.1177/1081286516666133

Singular asymptotic expansion of the elastic solution along an edge around which material properties depend on the angular coordinate

Netta Omer, Zohar Yosibash

Department of Mechanical Engineering

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

4 Scopus citations

Abstract

The solution to the elasticity problem in three-dimensional polyhedral domains in the vicinity of an edge around which the material properties depend on the angular angle is addressed. This asymptotic solution involves a family of eigenpairs and their shadows which are being computed by means of p-finite element methods. In particular the examples we give explicitly provide the asymptotic solution for cracks and V-notch edges and explore the eigenvalues as a function of the change in material properties in the angular direction. We demonstrate that the singular exponents may change considerably by changing the material properties variation in the angular direction. These eigenpairs are necessary to allow the extraction of the edge stress intensity functions.

Original language	English
Pages (from-to)	2288-2308
Number of pages	21
Journal	Mathematics and Mechanics of Solids
Volume	22
Issue number	12
DOIs	https://doi.org/10.1177/1081286516666133
State	Published - 1 Dec 2017

Keywords

Edge stress intensity functions
composite materials
elasticity
fracture mechanics
high order finite elements

ASJC Scopus subject areas

General Mathematics
General Materials Science
Mechanics of Materials

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10.1177/1081286516666133

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title = "Singular asymptotic expansion of the elastic solution along an edge around which material properties depend on the angular coordinate",

abstract = "The solution to the elasticity problem in three-dimensional polyhedral domains in the vicinity of an edge around which the material properties depend on the angular angle is addressed. This asymptotic solution involves a family of eigenpairs and their shadows which are being computed by means of p-finite element methods. In particular the examples we give explicitly provide the asymptotic solution for cracks and V-notch edges and explore the eigenvalues as a function of the change in material properties in the angular direction. We demonstrate that the singular exponents may change considerably by changing the material properties variation in the angular direction. These eigenpairs are necessary to allow the extraction of the edge stress intensity functions.",

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AU - Omer, Netta

AU - Yosibash, Zohar

PY - 2017/12/1

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N2 - The solution to the elasticity problem in three-dimensional polyhedral domains in the vicinity of an edge around which the material properties depend on the angular angle is addressed. This asymptotic solution involves a family of eigenpairs and their shadows which are being computed by means of p-finite element methods. In particular the examples we give explicitly provide the asymptotic solution for cracks and V-notch edges and explore the eigenvalues as a function of the change in material properties in the angular direction. We demonstrate that the singular exponents may change considerably by changing the material properties variation in the angular direction. These eigenpairs are necessary to allow the extraction of the edge stress intensity functions.

AB - The solution to the elasticity problem in three-dimensional polyhedral domains in the vicinity of an edge around which the material properties depend on the angular angle is addressed. This asymptotic solution involves a family of eigenpairs and their shadows which are being computed by means of p-finite element methods. In particular the examples we give explicitly provide the asymptotic solution for cracks and V-notch edges and explore the eigenvalues as a function of the change in material properties in the angular direction. We demonstrate that the singular exponents may change considerably by changing the material properties variation in the angular direction. These eigenpairs are necessary to allow the extraction of the edge stress intensity functions.

KW - Edge stress intensity functions

KW - composite materials

KW - elasticity

KW - fracture mechanics

KW - high order finite elements

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ER -

Singular asymptotic expansion of the elastic solution along an edge around which material properties depend on the angular coordinate

Abstract

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