Interesting interfacial phenomena: friction
Feed: Nature - Issue - nature.com science feeds
Posted on: Wednesday, 7 May 2014 10:00 AM
Author: Ilya Svetlizky
Subject: Classical shear cracks drive the onset of dry frictional motion
Classical shear cracks drive the onset of dry frictional motion
Nature 509, 7499 (2014). doi:10.1038/nature13202<http://dx.doi.org/10.1038/nature13202>
Authors: Ilya Svetlizky & Jay Fineberg
Frictional processes entail the rupture of the ensemble of discrete contacts defining a frictional interface. There are a variety of views on how best to describe the onset of dry frictional motion. These range from modelling friction with a single degree of freedom, a 'friction coefficient', to theoretical treatments using dynamic fracture to account for spatial and temporal dynamics along the interface. We investigated the onset of dry frictional motion by performing simultaneous high-speed measurements of the real contact area and the strain fields in the region surrounding propagating rupture tips within the dry (nominally flat) rough interfaces formed by brittle polymer blocks. Here we show that the transition from 'static' to 'dynamic' friction is quantitatively described by classical singular solutions for the motion of a rapid shear crack. We find that these singular solutions, originally derived to describe brittle fracture, are in excellent agreement with the experiments for slow propagation, whereas some significant discrepancies arise as the rupture velocity approaches the Rayleigh wave speed. In addition, the energy dissipated in the fracture of the contacts remains nearly constant throughout the entire range in which the rupture velocity is less than the Rayleigh wave speed, whereas the size of the dissipative zone undergoes a Lorentz-like contraction as the rupture velocity approaches the Rayleigh wave speed. This coupling between friction and fracture is critical to our fundamental understanding of frictional motion and related processes, such as earthquake dynamics.
View article...<http://feeds.nature.com/~r/nature/rss/current/~3/PkIT9SyJ3Nw/nature13202>
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