Velocity-weakening and -strengthening friction at single and multiasperity contacts with calcite single crystals

Binxin Fu; Rosa M. Espinosa-Marzal

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Velocity-weakening and -strengthening friction at single and multiasperity contacts with calcite single crystals

机译：Velocity-weakening and -strengthening friction at single and multiasperity contacts with calcite single crystals

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摘要

Although earthquakes are one of the most notorious natural disasters, a lull understanding of the underlying mechanisms is still lacking. Here, nanoscale friction measurements were performed by atomic force microscopy (AFM) on calcite single crystals with an oxidized silicon tip to investigate the influence of roughness, contact aging, and dry vs. aqueous environment. In dry environments, smooth and rough calcite surfaces yielding single- and multiasperity contacts, respectively, exhibit velocity-weakening (βDln V) or neutral friction at slow sliding velocities and velocity-strengthening friction (αDln V) at higher velocities, while the transition shifts to slower velocities with an increase in roughness. The origin of the velocity-weakening friction is determined to be contact aging resulting from atomic attrition of the crystalline surface. Friction measurements in aqueous environment show evidence of pressure solution at sufficiently slow sliding velocities, which not only significantly reduces friction on single-and multiasperity contacts but also, eliminates atomic attrition and thereby, velocity-weakening friction. Importantly, the friction scaling law evolves from logarithmic (βD lnV) into linear (αpsV), deviating from commonly accepted rate-and-state friction (RSF) laws; this behavior extends over a wider range of velocities with higher roughness. Above a transition velocity, the scaling law remains logarithmic (αWln V). The friction rate parameters αD, βD, αPs, and αW decrease with load and depend on roughness in a nonmonotonic fashion, like the adhesion, suggesting the relevance of the contact area. The results also reveal that parameters and memory distance differ in dry and aqueous environments, with implications for the understanding of mechanisms underlying RSF laws and fault stability.

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《Proceedings of the National Academy of Sciences of the United States of America.》 |2022年第22期|e2112505119-e2112505119|共1页
作者
Binxin Fu; Rosa M. Espinosa-Marzal;
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作者单位

DepartmentofCivil and Environmental Engineering, University of Illinois at Urbana-Champaign, Urbana;

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收录信息美国《科学引文索引》(SCI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
原文格式 PDF
正文语种英语
中图分类自然科学总论;
关键词
friction; calcite; contact aging; rate-and-state friction law; atomic force microscopy;

Velocity-weakening and -strengthening friction at single and multiasperity contacts with calcite single crystals

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