Plasticity and deformation microstructure of 4H-SiC below the brittle-to-ductile transition
Author:
Publisher
Wiley
Subject
Condensed Matter Physics
Reference15 articles.
1. A simple apparatus for high pressures and temperatures
2. Plastic deformation of minerals under extreme pressure using a multi-anvil apparatus
3. On transition temperatures in the plasticity and fracture of semiconductors
4. A high-pressure, high-temperature apparatus for rock deformation
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1. Dislocations in Ceramic Materials;Encyclopedia of Materials: Technical Ceramics and Glasses;2021
2. Reaction pathway analysis for the conversion of perfect screw basal plane dislocation to threading edge dislocation in 4H-SiC;Japanese Journal of Applied Physics;2019-07-18
3. Modeling and Experiment of the Critical Depth of Cut at the Ductile–Brittle Transition for a 4H-SiC Single Crystal;Micromachines;2019-06-07
4. Annealing and LEEBI Effects on the Stacking Fault Expansion and Shrinking in 4H‐SiC;physica status solidi (a);2019-05-29
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