Overlapping plastic events as a mechanism for irreversible dynamics in amorphous solids under oscillatory shear

Asaf Szulc; Ido Regev

doi:10.1103/PhysRevResearch.6.033129

Overlapping plastic events as a mechanism for irreversible dynamics in amorphous solids under oscillatory shear

Asaf Szulc
, Ido Regev

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

3 Scopus citations

Abstract

The origin of the transition from asymptotically reversible to asymptotically irreversible response in amorphous solids subject to oscillatory shear is still unknown. It is known that the plastic events that result from shearing always involve localized particle rearrangements, but it is unclear why some are reversible while others are not. Here, we show, using simulations and models, that overlaps between particle rearrangements caused by straining the solid in alternating directions can cause the response to become irreversible when they occur frequently. As the forcing amplitude increases, plastic events become more frequent, the number of such overlaps increases, and the probability of the system returning to previous states diminishes.

Original language	English
Article number	033129
Journal	Physical Review Research
Volume	6
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevResearch.6.033129
State	Published - 1 Jun 2024

ASJC Scopus subject areas

General Physics and Astronomy

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title = "Overlapping plastic events as a mechanism for irreversible dynamics in amorphous solids under oscillatory shear",

abstract = "The origin of the transition from asymptotically reversible to asymptotically irreversible response in amorphous solids subject to oscillatory shear is still unknown. It is known that the plastic events that result from shearing always involve localized particle rearrangements, but it is unclear why some are reversible while others are not. Here, we show, using simulations and models, that overlaps between particle rearrangements caused by straining the solid in alternating directions can cause the response to become irreversible when they occur frequently. As the forcing amplitude increases, plastic events become more frequent, the number of such overlaps increases, and the probability of the system returning to previous states diminishes.",

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N2 - The origin of the transition from asymptotically reversible to asymptotically irreversible response in amorphous solids subject to oscillatory shear is still unknown. It is known that the plastic events that result from shearing always involve localized particle rearrangements, but it is unclear why some are reversible while others are not. Here, we show, using simulations and models, that overlaps between particle rearrangements caused by straining the solid in alternating directions can cause the response to become irreversible when they occur frequently. As the forcing amplitude increases, plastic events become more frequent, the number of such overlaps increases, and the probability of the system returning to previous states diminishes.

AB - The origin of the transition from asymptotically reversible to asymptotically irreversible response in amorphous solids subject to oscillatory shear is still unknown. It is known that the plastic events that result from shearing always involve localized particle rearrangements, but it is unclear why some are reversible while others are not. Here, we show, using simulations and models, that overlaps between particle rearrangements caused by straining the solid in alternating directions can cause the response to become irreversible when they occur frequently. As the forcing amplitude increases, plastic events become more frequent, the number of such overlaps increases, and the probability of the system returning to previous states diminishes.

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Overlapping plastic events as a mechanism for irreversible dynamics in amorphous solids under oscillatory shear

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