Hydrolytic weakening of experimentally deformed Westerly granite and Hale albite rock
Abstract
In order to determine the effect of water on deformation in the brittle-ductile transition region of crustal rocks, experiments have been conducted on Westerly granite and a polycrystalline albite rock, comparing samples dried at 160°C for 12 h ('dry') and samples with about 0.2 wt% water added ('wet'). The deformation mechanisms and style of deformation of the wet and dry samples, determined using optical and transmission electron microscopy, have been found to depend on temperature, pressure, strain rate, and strain. At 15 kb and 10 -6, the added water reduces the temperature of the transition between microcracking and dislocation glide and climb by about 150-200°C for both quartz and feldspar. However, the penetration of 'water' into the grains is slow compared with the time of the experiments and many of the wet samples show evidence of initial microcracking and later dislocation creep. Wet samples deformed at 10 kb show less hydrolytic weakening than wet samples deformed at 15 kb. Because the deformation mechanism and strength of silicates depend so sensitively on trace amounts of water, and because the water content of experimental samples varies with temperature and pressure and thus with time, flow laws for any samples are only meaningful if the water content has been carefully controlled or characterized.
- Publication:
-
Journal of Structural Geology
- Pub Date:
- 1980
- DOI:
- 10.1016/0191-8141(80)90005-X
- Bibcode:
- 1980JSG.....2..439T