Journal ArticleDOI
Limits on lithospheric stress imposed by laboratory experiments
W. F. Brace,David L. Kohlstedt +1 more
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TLDR
Byerlee's law, converted to maximum or minimum stress, is a good upper or lower bound to observed in situ stresses to 5 km, for pore pressure hydrostatic or subhydrostatic as discussed by the authors.Abstract:
Laboratory measurements of rock strength provide limiting values of lithospheric stress, provided that one effective principal stress is known. Fracture strengths are too variable to be useful; however, rocks at shallow depth are probably fractured so that frictional strength may apply. A single linear friction law, termed Byerlee's law, holds for all materials except clays, to pressures of more than 1 GPa, to temperatures of 500°C, and over a wide range of strain rates. Byerlee's law, converted to maximum or minimum stress, is a good upper or lower bound to observed in situ stresses to 5 km, for pore pressure hydrostatic or subhydrostatic. Byerlee's law combined with the quartz or olivine flow law provides a maximum stress profile to about 25 or 50 km, respectively. For a temperature gradient of 15°K/km, stress will be close to zero at the surface and at 25 km (quartz) or 50 km (olivine) and reaches a maximum of 600 MPa (quartz) or 1100 MPa (olivine) for hydrostatic pore pressure. Some new permeability studies of crystalline rocks suggest that pore pressure will be low in the absence of a thick argillaceous cover.read more
Citations
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Mantle dynamics, uplift of the Tibetan Plateau, and the Indian Monsoon
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First‐ and second‐order patterns of stress in the lithosphere: The World Stress Map Project
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Strength of the lithosphere: Constraints imposed by laboratory experiments
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References
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Journal ArticleDOI
Friction of Rocks
TL;DR: This paper showed that at low normal stress the shear stress required to slide one rock over another varies widely between experiments and at high normal stress that effect is diminished and the friction is nearly independent of rock type.
Book
Experimental Rock Deformation: The Brittle Field
TL;DR: In this article, the Griffith Theory of Brittle Failure and the evolution of physical properties during brittle failure are discussed, including the role of pore fluid and friction and sliding phenomena.
Journal ArticleDOI
Stress and temperature in the bending lithosphere as constrained by experimental rock mechanics
C. Goetze,Brian Evans +1 more
TL;DR: In this paper, a limiting yield strength curve, which is primarily a function of temperature, is constructed from data from brittle failure and ductile flow experiments, in order to formulate a more realistic constitutive relation.
Journal ArticleDOI
Time‐dependent friction in rocks
TL;DR: Friction experiments have been conducted on porous sandstone, quartzite, graywacke, and granite in the 20-to 850-bar normal stress range as mentioned in this paper, and the coefficient of static friction of surfaces with gouge exhibits a highly time-dependent behavior.
Journal ArticleDOI
Permeability of crystalline and argillaceous rocks
TL;DR: In this article, the authors compared laboratory, in situ, and inferred values of permeability, k, of crystalline and argillaceous rocks, and found that in situ k ranged from about 1 μd (10−14 cm2) to 100 md; this is close to the permeability of many sandstones and about 103 times greater than laboratory measurements for intact crystalline rocks.