|
|||||
|
|
Plastic deformation of garnets: systematics and implications for the rheology of the mantle transition zone |
|
| Authors: | Shun-ichiro Karato Zichao Wang Bofa Liu and Kiyoshi Fujino |
| Institution: | aUniversity of Minnesota Department of Geology and Geophysics, Minneapolis, MN 55455,USA bGeoForschungsZentrum Potsdam, Telegrafenberg A-26, Potsdam ,Germany cDepartment of Earth Sciences, Hokkaido University, Sapporo , 060Japan |
| Abstract: | Plastic properties of materials with garnet structure have been studied under wide temperature conditions, ranging from room temperature to  95% of the melting temperatures, using uniaxial compression and hot microhardness tests. Garnets studied include single crystals of oxide garnets (Y3Al5O12, Gd3Ga5O12 and Y3Fe5O12) and silicate garnets (various solid solutions, including grossular, almandine, andradite, pyrope, spessartine and uvarovite). Both uniaxial compression and hot hardness tests indicate that there is a general trend in the plasticity of garnets when the data are compared at normalized conditions (T/Tm andσ/μ), and that the resistance to plastic deformation in garnets is significantly higher than most of the other minerals in the Earth's mantle. Based on both stress-dip tests and microstructural observations, it is proposed that the creep strength of garnet is largely controlled by the resistance to dislocation glide rather than by recovery processes. This conclusion is consistent with the high Peierls stress inferred from the hot hardness tests. The high Peierls stress in garnets is, presumably, due to the large unit cell (i.e., long Burgers vectors) and/or the bcc packing, which are common to all garnets. We postulate, therefore, that the present results can be applied to the strength of high-pressure garnet (majorite) and suggest that garnet-rich layers in the Earth, such as subducted oceanic crust in the transition zone or a possibly garnet-rich (bottom part of the) transition zone, will be considerably stronger than surrounding regions. |
| Keywords: | |
| 本文献已被 ScienceDirect 等数据库收录! | |