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The evolution of rock friction is more sensitive to slip than elapsed time, even at near-zero slip rates

Author(s): Bhattacharya, Pathikrit; Rubin, Allan M; Tullis, Terry E; Beeler, Nicholas M; Okazaki, Keishi

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Abstract: Nearly all frictional interfaces strengthen as the logarithm of time when sliding at ultra- low speeds. Observations of also logarithmic-in-time growth of interfacial contact area under such conditions have led to constitutive models that assume that this frictional strengthening results from purely time-dependent, and slip-insensitive, contact-area growth. The main laboratory support for such strengthening has traditionally been derived from increases in friction during “load-point hold” experiments, wherein a sliding interface is allowed to gradually self-relax down to subnanometric slip rates. In contrast, following step decreases in the shear loading rate, friction is widely reported to increase over a characteristic slip scale, independent of the magnitude of the slip- rate decrease—a signature of slip-dependent strengthening. To investigate this apparent contradiction, we subjected granite samples to a series of step decreases in shear rate of up to 3.5 orders of magnitude and load-point holds of up to 10,000 s, such that both protocols accessed the phenomenological regime traditionally inferred to demonstrate time-dependent frictional strengthening. When modeling the resultant data, which probe interfacial slip rates ranging from 3 μm · s−1 to less than 10−5μm · s−1, we found that constitutive models where low slip-rate friction evolution mimics log-time contact-area growth require parameters that differ by orders of magnitude across the different experiments. In contrast, an alternative constitutive model, in which friction evolves only with interfacial slip, fits most of the data well with nearly identical parameters. This leads to the surprising conclusion that frictional strengthening is dominantly slip-dependent, even at subnanometric slip rates.
Publication Date: 26-Jul-2022
Electronic Publication Date: 20-Jul-2022
Citation: Bhattacharya, Pathikrit, Rubin, Allan M, Tullis, Terry E, Beeler, Nicholas M, Okazaki, Keishi. (2022). The evolution of rock friction is more sensitive to slip than elapsed time, even at near-zero slip rates. Proceedings of the National Academy of Sciences, 119 (30), 10.1073/pnas.2119462119
DOI: doi:10.1073/pnas.2119462119
ISSN: 0027-8424
EISSN: 1091-6490
Language: en
Type of Material: Journal Article
Journal/Proceeding Title: Proceedings of the National Academy of Sciences
Version: Final published version. This is an open access article.

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