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Plastic deformation and recrystallization of garnet: a mechanism to facilitate diffusion creep
Craig Storey
, D. Prior
Research output
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peer-review
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Dive into the research topics of 'Plastic deformation and recrystallization of garnet: a mechanism to facilitate diffusion creep'. Together they form a unique fingerprint.
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INIS
amphibolites
9%
control
9%
creep
100%
crystallography
18%
deformation
9%
diffraction
9%
diffusion
100%
dislocations
9%
dynamics
9%
electron microprobe analysis
9%
electrons
18%
garnets
100%
grain boundaries
9%
increasing
9%
losses
9%
matrices
9%
microstructure
9%
minerals
9%
optical microscopy
9%
orientation
27%
plasticity
100%
randomness
9%
recovery
9%
recrystallization
100%
rotation
18%
scotland
9%
shear
9%
single crystals
9%
strains
63%
zones
9%
Earth and Planetary Sciences
Amphibolite Facies
9%
Backscatter
9%
Dislocation Creep
9%
Eclogite
9%
Electron Probes
9%
Garnet
100%
Grain Boundaries
9%
Plastic Deformation
100%
Retrogression
9%
Scotland
9%
Shear Zone
9%
Single Crystal
9%
Substructure
9%