Roughness of tensile crack fronts in heterogenous materials

E Katzav; M Adda-Bedia

doi:10.1209/epl/i2006-10273-7

Roughness of tensile crack fronts in heterogenous materials

E Katzav, M Adda-Bedia

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27 Citations (Scopus)

Abstract

The dynamics of planar crack fronts in heterogeneous media is studied using a recently proposed stochastic equation of motion that takes into account nonlinear effects. The analysis is carried for a moving front in the quasi-static regime using the Self Consistent Expansion. A continuous dynamical phase transition between a. at phase and a dynamically rough phase, with a roughness exponent zeta = 1/2, is found. The rough phase becomes possible due to the destabilization of the linear modes by the nonlinear terms. Taking into account the irreversibility of the crack propagation, we infer that the roughness exponent found in experiments might become history dependent, and so our result gives a lower bound for zeta.

Original language	English
Pages (from-to)	450 - 456
Number of pages	7
Journal	EUROPHYSICS LETTERS
Volume	76
Issue number	3
DOIs	https://doi.org/10.1209/epl/i2006-10273-7
Publication status	Published - 1 Nov 2006

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10.1209/epl/i2006-10273-7

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title = "Roughness of tensile crack fronts in heterogenous materials",

abstract = "The dynamics of planar crack fronts in heterogeneous media is studied using a recently proposed stochastic equation of motion that takes into account nonlinear effects. The analysis is carried for a moving front in the quasi-static regime using the Self Consistent Expansion. A continuous dynamical phase transition between a. at phase and a dynamically rough phase, with a roughness exponent zeta = 1/2, is found. The rough phase becomes possible due to the destabilization of the linear modes by the nonlinear terms. Taking into account the irreversibility of the crack propagation, we infer that the roughness exponent found in experiments might become history dependent, and so our result gives a lower bound for zeta.",

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AU - Adda-Bedia, M

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N2 - The dynamics of planar crack fronts in heterogeneous media is studied using a recently proposed stochastic equation of motion that takes into account nonlinear effects. The analysis is carried for a moving front in the quasi-static regime using the Self Consistent Expansion. A continuous dynamical phase transition between a. at phase and a dynamically rough phase, with a roughness exponent zeta = 1/2, is found. The rough phase becomes possible due to the destabilization of the linear modes by the nonlinear terms. Taking into account the irreversibility of the crack propagation, we infer that the roughness exponent found in experiments might become history dependent, and so our result gives a lower bound for zeta.

AB - The dynamics of planar crack fronts in heterogeneous media is studied using a recently proposed stochastic equation of motion that takes into account nonlinear effects. The analysis is carried for a moving front in the quasi-static regime using the Self Consistent Expansion. A continuous dynamical phase transition between a. at phase and a dynamically rough phase, with a roughness exponent zeta = 1/2, is found. The rough phase becomes possible due to the destabilization of the linear modes by the nonlinear terms. Taking into account the irreversibility of the crack propagation, we infer that the roughness exponent found in experiments might become history dependent, and so our result gives a lower bound for zeta.

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DO - 10.1209/epl/i2006-10273-7

M3 - Article

VL - 76

SP - 450

EP - 456

JO - EUROPHYSICS LETTERS

JF - EUROPHYSICS LETTERS

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ER -

Roughness of tensile crack fronts in heterogenous materials

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