Intermittent dislocation density fluctuations in crystal plasticity from a phase-field crystal model

Jens M. Tarp; Luiza Angheluta; Joachim Mathiesen; Nigel Goldenfeld

doi:10.1103/PhysRevLett.113.265503

Intermittent dislocation density fluctuations in crystal plasticity from a phase-field crystal model

Jens M. Tarp, Luiza Angheluta, Joachim Mathiesen, Nigel Goldenfeld

10 Citations (Scopus)

Abstract

Plastic deformation mediated by collective dislocation dynamics is investigated in the two-dimensional phase-field crystal model of sheared single crystals. We find that intermittent fluctuations in the dislocation population number accompany bursts in the plastic strain-rate fluctuations. Dislocation number fluctuations exhibit a power-law spectral density 1/f2 at high frequencies f. The probability distribution of number fluctuations becomes bimodal at low driving rates corresponding to a scenario where low density of defects alternates at irregular times with high populations of defects. We propose a simple stochastic model of dislocation reaction kinetics that is able to capture these statistical properties of the dislocation density fluctuations as a function of shear rate.

Original language	English
Article number	265503
Journal	Physical Review Letters
Volume	113
Issue number	26
ISSN	0031-9007
DOIs	https://doi.org/10.1103/PhysRevLett.113.265503
Publication status	Published - 31 Dec 2014

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title = "Intermittent dislocation density fluctuations in crystal plasticity from a phase-field crystal model",

abstract = "Plastic deformation mediated by collective dislocation dynamics is investigated in the two-dimensional phase-field crystal model of sheared single crystals. We find that intermittent fluctuations in the dislocation population number accompany bursts in the plastic strain-rate fluctuations. Dislocation number fluctuations exhibit a power-law spectral density 1/f2 at high frequencies f. The probability distribution of number fluctuations becomes bimodal at low driving rates corresponding to a scenario where low density of defects alternates at irregular times with high populations of defects. We propose a simple stochastic model of dislocation reaction kinetics that is able to capture these statistical properties of the dislocation density fluctuations as a function of shear rate.",

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AU - Tarp, Jens M.

AU - Angheluta, Luiza

AU - Mathiesen, Joachim

AU - Goldenfeld, Nigel

PY - 2014/12/31

Y1 - 2014/12/31

N2 - Plastic deformation mediated by collective dislocation dynamics is investigated in the two-dimensional phase-field crystal model of sheared single crystals. We find that intermittent fluctuations in the dislocation population number accompany bursts in the plastic strain-rate fluctuations. Dislocation number fluctuations exhibit a power-law spectral density 1/f2 at high frequencies f. The probability distribution of number fluctuations becomes bimodal at low driving rates corresponding to a scenario where low density of defects alternates at irregular times with high populations of defects. We propose a simple stochastic model of dislocation reaction kinetics that is able to capture these statistical properties of the dislocation density fluctuations as a function of shear rate.

AB - Plastic deformation mediated by collective dislocation dynamics is investigated in the two-dimensional phase-field crystal model of sheared single crystals. We find that intermittent fluctuations in the dislocation population number accompany bursts in the plastic strain-rate fluctuations. Dislocation number fluctuations exhibit a power-law spectral density 1/f2 at high frequencies f. The probability distribution of number fluctuations becomes bimodal at low driving rates corresponding to a scenario where low density of defects alternates at irregular times with high populations of defects. We propose a simple stochastic model of dislocation reaction kinetics that is able to capture these statistical properties of the dislocation density fluctuations as a function of shear rate.

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DO - 10.1103/PhysRevLett.113.265503

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Intermittent dislocation density fluctuations in crystal plasticity from a phase-field crystal model

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