Slip-stick and the evolution of frictional strength

Oded Ben-David, Shmuel M. Rubinstein, Jay Fineberg*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

239 Scopus citations


The evolution of frictional strength has great fundamental and practical importance. Applications range from earthquake dynamics to hard-drive read/write cycles. Frictional strength is governed by the resistance to shear of the large ensemble of discrete contacts that forms the interface that separates two sliding bodies. An interface's overall strength is determined by both the real contact area and the contacts' shear strength. Whereas the average motion of large, slowly sliding bodies is well-described by empirical friction laws, interface strength is a dynamic entity that is inherently related to both fast processes such as detachment/re-attachment and the slow process of contact area rejuvenation. Here we show how frictional strength evolves from extremely short to long timescales, by continuous measurements of the concurrent local evolution of the real contact area and the corresponding interface motion (slip) from the first microseconds when contact detachment occurs to large (100-second) timescales. We identify four distinct and inter-related phases of evolution. First, all of the local contact area reduction occurs within a few microseconds, on the passage of a crack-like front. This is followed by the onset of rapid slip over a characteristic time, the value of which suggests a fracture-induced reduction of contact strength before any slip occurs. This rapid slip phase culminates with a sharp transition to slip at velocities an order of magnitude slower. At slip arrest, 'ageing' immediately commences as contact area increases on a characteristic timescale determined by the system's local memory of its effective contact time before slip arrest. We show how the singular logarithmic behaviour generally associated with ageing is cut off at short times. These results provide a comprehensive picture of how frictional strength evolves from the short times and rapid slip velocities at the onset of motion to ageing at the long times following slip arrest.

Original languageAmerican English
Pages (from-to)76-79
Number of pages4
Issue number7277
StatePublished - 7 Jan 2010

Bibliographical note

Funding Information:
Acknowledgements We acknowledge comments by J. R. Rice, M. O. Robbins, T. Baumberger and C. Caroli. This work, as part of the ESF EUROCORES programme FANAS, was supported by the Israel Science Foundation (grant 57/ 07). We also acknowledge support of the US–Israel Binational Science Foundation (grant 2006288).


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