Comparison of brittle- and viscous creep in quartzites: Implications for semi-brittle flow of rocks
Author(s)
Reber, Jacqueline E.; Pec, Matej
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The co-existence and interaction between brittle and viscous deformation processes contributes to the integrated strength of the crust and results in a wide range of energy-release mechanisms ranging from earthquakes to creep. Here, we compare flow laws derived for quartz-rich rocks deforming by brittle creep, wet dislocation power-law creep and dissolution-precipitation creep. We investigate theoretically the conditions when both brittle and viscous processes contribute significantly to deformation provided that all processes act independently and in parallel. Utilizing a comprehensive data set for deformation experiments in quartz-rich rocks, we find that the transition between deformation mechanisms is strongly dependent on input variables such as initial flaw size and grain size. The transition can occur abruptly or over hundreds of MPa in differential stress and hundreds of degrees Kelvin at a constant strain rate. The transition is strongly dependent on grain-size and confining pressure. Limitations to this work are first that all three flow laws are poorly constrained by experimental data for conditions relevant for the comparison. Secondly, a need exists for new experiments to infill the knowledge gaps between high-temperature and low-temperature deformation experiments and deriving quantitative flow laws for low-temperature plasticity and high-temperature brittle creep. Keyword: Geology,
Date issued
2018-08Department
Massachusetts Institute of Technology. Department of Earth, Atmospheric, and Planetary SciencesJournal
Journal of Structural Geology
Publisher
Elsevier BV
Citation
Reber, Jacqueline E. and Matej Pec. "Comparison of brittle- and viscous creep in quartzites: Implications for semi-brittle flow of rocks." Journal of Structural Geology, 113 (August 2018): 90-99 © 2018 Elsevier Ltd.
Version: Author's final manuscript
ISSN
0191-8141
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