TY - JOUR
T1 - Transition rates for slip-avalanches in soft athermal disks under quasi-static simple shear deformations
AU - Saitoh, Kuniyasu
AU - Oyama, Norihiro
AU - Ogushi, Fumiko
AU - Luding, Stefan
N1 - Funding Information:
We thank V. Magnanimo and B. P. Tighe for fruitful discussions and our referees for helpful suggestions for improvements. This work was financially supported by KAKENHI Grant 16H04025 and 18K13464 from JSPS and the NWO-STW VICI grant 10828. F. O. was partly supported by MI2I project of the Support Program for Starting Up Innovation Hub from the JST.
Publisher Copyright:
© The Royal Society of Chemistry.
PY - 2019
Y1 - 2019
N2 - We study slip-avalanches in two-dimensional soft athermal disks by quasi-static simulations of simple shear deformations. Sharp drops in shear stress, or slip-avalanches, are observed intermittently during steady state. Such stress drops are caused by restructuring of the contact networks, accompanied by drastic changes of the interaction forces, Δf. The changes of the forces happen heterogeneously in space, indicating that collective non-affine motions of the disks are most pronounced when slip-avalanches occur. We analyze and predict the statistics for the force changes, Δf, by transition rates of the contact forces and angles, where slip-avalanches are characterized by wide power-law tails. We find that the transition rates are described by a q-Gaussian distribution regardless of the area fraction of the disks. Because the transition rates quantify structural changes of the force-chains, our findings are an important step towards linking macroscopic observations to a microscopic theory of slip-avalanches in the experimentally accessible quasi-static regime.
AB - We study slip-avalanches in two-dimensional soft athermal disks by quasi-static simulations of simple shear deformations. Sharp drops in shear stress, or slip-avalanches, are observed intermittently during steady state. Such stress drops are caused by restructuring of the contact networks, accompanied by drastic changes of the interaction forces, Δf. The changes of the forces happen heterogeneously in space, indicating that collective non-affine motions of the disks are most pronounced when slip-avalanches occur. We analyze and predict the statistics for the force changes, Δf, by transition rates of the contact forces and angles, where slip-avalanches are characterized by wide power-law tails. We find that the transition rates are described by a q-Gaussian distribution regardless of the area fraction of the disks. Because the transition rates quantify structural changes of the force-chains, our findings are an important step towards linking macroscopic observations to a microscopic theory of slip-avalanches in the experimentally accessible quasi-static regime.
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U2 - 10.1039/c8sm01966e
DO - 10.1039/c8sm01966e
M3 - Article
C2 - 30849152
AN - SCOPUS:85064989280
SN - 1744-683X
VL - 15
JO - Soft Matter
JF - Soft Matter
IS - 17
M1 - 3487
ER -