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Rates of Dynamic Recrystallization in Geologic Materials
A. J. Cross
, P. Skemer
Department of Earth & Planetary Sciences
Research output
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Contribution to journal
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Article
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peer-review
27
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Scopus citations
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Keyphrases
Geologic Materials
100%
Dynamic Recrystallization
100%
Homologous Temperature
100%
Grain Size Reduction
66%
Natural Conditions
33%
Microstructure
33%
Temperature Effect
33%
First-order
33%
Engineering Materials
33%
Modified Forms
33%
Work Rate
33%
Shear Strain
33%
Crystalline Materials
33%
Stress Deformation
33%
Crystal Orientation
33%
Long Transients
33%
Geodynamic Model
33%
Geodynamic Processes
33%
Johnson-Mehl-Avrami-Kolmogorov
33%
Grain Size Evolution
33%
Phase Transformation Kinetics
33%
Initial Grain Size
33%
Strain Weakening
33%
DRX Kinetics
33%
Empirical Constraint
33%
Deformation Work
33%
Kolmogorov Theory
33%
Avrami Equation
33%
Engineering
Dynamic Recrystallization
100%
Grain Size
100%
Engineering
25%
Broad Range
25%
Temperature Dependence
25%
Shear Strain
25%
Applied Stress
25%
Crystal Orientation
25%
Phase Transformation Kinetics
25%
Avrami Equation
25%
Physics
Grain Size
100%
Geodynamics
50%
Size Reduction
50%
Temperature Dependence
25%
Shear Strain
25%
Crystalline Material
25%
Kolmogorov Theory
25%
Material Science
Grain Size
100%
Comminution
50%
Shear Strain
25%
Crystal Orientation
25%
Engineering Material
25%
Crystalline Material
25%
Chemical Engineering
Materials Engineering
100%