Dislocation microstructures in naturally deformed silicate garnets
Abstract
Dislocation microstructures of naturally deformed silicate garnets and olivines in garnet-peridotites and silicate garnets in eclogites from four localities have been observed with a transmission electron microscope (TEM) to clarify the dislocation characteristics of silicate garnets. We have obtained the following results: (1) dislocation densities of garnets in all the garnet-peridotites ( ρ = 10 5-10 7 cm -2) are always nearly an order of magnitude lower than those of co-existing olivines; (2) dislocation densities of garnets in eclogites ( ρ = 10 5-10 8 cm -2) which are embedded in garnet-peridotites are almost an order of magnitude higher than those of garnets in the surrounding garnet-peridotites; (3) the dominant Burgers vector, b, of mainly edge dislocations in garnet is <100> for specimens with dislocation density ρ = 10 5-10 6 cm -2, while b= 1/2<111> for specimens with ρ = 10 7-10 8 cm -2. Result (1) indicates that the observed dislocations in garnets were formed by plastic deformation under the same stresses as for co-existing olivines, and that there is a similar relationship between applied stress and dislocation density for garnets as for olivines. Result (2) suggests that the stress concentration occurred around eclogites embedded in garnet-peridotites, and the resulting differential stress in garnets in eclogites was further elevated by the interlocking of neighboring hard garnet grains. Finally, result (3) indicates that the dominant Burgers vector of mainly edge dislocations in garnet changes from <100> to 1/2<111> with increasing applied differential stress.
- Publication:
-
Physics of the Earth and Planetary Interiors
- Pub Date:
- November 1993
- DOI:
- 10.1016/0031-9201(93)90041-7
- Bibcode:
- 1993PEPI...80..105A