Mode I crack in a soft ferromagnetic material

W. Liang; D. Fang; Y. Shen

doi:10.1046/j.1460-2695.2002.00511.x

Mode I crack in a soft ferromagnetic material

W. Liang, D. Fang, Y. Shen^*

^*Corresponding author for this work

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

4 Citations (Scopus)

Abstract

In the existing magnetoelastic theories, stress is proportional to the square of magnetic intensity and the linear model developed is usually used to analyse magnetoelastic problems. For a crack problem, the perturbation of the magnetic field caused by deformation is not much less than the applied field. In this paper, complex potentials for a mode I crack with a nonlinear relation for magnetic intensity are developed. The boundary conditions on crack faces are represented in terms of the continuity of the magnetic field. A solution of the crack problem is obtained by solving the Riemann-Hilbert problem. Making use of the solution, the effects of the boundary conditions on the crack faces on the magnetoelastic coupling are discussed.

Original language	English
Pages (from-to)	519-526
Number of pages	8
Journal	Fatigue and Fracture of Engineering Materials and Structures
Volume	25
Issue number	5
DOIs	https://doi.org/10.1046/j.1460-2695.2002.00511.x
Publication status	Published - May 2002
Externally published	Yes

Keywords

Complex potential
Crack
Magnetic boundary condition
Magnetoelastic coupling
Soft ferromagnetic material

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10.1046/j.1460-2695.2002.00511.x

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abstract = "In the existing magnetoelastic theories, stress is proportional to the square of magnetic intensity and the linear model developed is usually used to analyse magnetoelastic problems. For a crack problem, the perturbation of the magnetic field caused by deformation is not much less than the applied field. In this paper, complex potentials for a mode I crack with a nonlinear relation for magnetic intensity are developed. The boundary conditions on crack faces are represented in terms of the continuity of the magnetic field. A solution of the crack problem is obtained by solving the Riemann-Hilbert problem. Making use of the solution, the effects of the boundary conditions on the crack faces on the magnetoelastic coupling are discussed.",

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AU - Liang, W.

AU - Fang, D.

AU - Shen, Y.

PY - 2002/5

Y1 - 2002/5

N2 - In the existing magnetoelastic theories, stress is proportional to the square of magnetic intensity and the linear model developed is usually used to analyse magnetoelastic problems. For a crack problem, the perturbation of the magnetic field caused by deformation is not much less than the applied field. In this paper, complex potentials for a mode I crack with a nonlinear relation for magnetic intensity are developed. The boundary conditions on crack faces are represented in terms of the continuity of the magnetic field. A solution of the crack problem is obtained by solving the Riemann-Hilbert problem. Making use of the solution, the effects of the boundary conditions on the crack faces on the magnetoelastic coupling are discussed.

AB - In the existing magnetoelastic theories, stress is proportional to the square of magnetic intensity and the linear model developed is usually used to analyse magnetoelastic problems. For a crack problem, the perturbation of the magnetic field caused by deformation is not much less than the applied field. In this paper, complex potentials for a mode I crack with a nonlinear relation for magnetic intensity are developed. The boundary conditions on crack faces are represented in terms of the continuity of the magnetic field. A solution of the crack problem is obtained by solving the Riemann-Hilbert problem. Making use of the solution, the effects of the boundary conditions on the crack faces on the magnetoelastic coupling are discussed.

KW - Complex potential

KW - Crack

KW - Magnetic boundary condition

KW - Magnetoelastic coupling

KW - Soft ferromagnetic material

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DO - 10.1046/j.1460-2695.2002.00511.x

M3 - Article

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JO - Fatigue and Fracture of Engineering Materials and Structures

JF - Fatigue and Fracture of Engineering Materials and Structures

IS - 5

ER -

Mode I crack in a soft ferromagnetic material

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Keywords

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