Thermal depinning of dislocations in electron-irradiated copper
Author:
Publisher
Elsevier BV
Subject
General Engineering
Reference25 articles.
1. Neutron Irradiation Effects Upon Young's Modulus and Internal Friction of Copper
2. Effect of Electron Irradiation and Subsequent Thermal Treatment on Young's Modulus of Copper
3. Dislocation Contribution to the Temperature Dependence of the Internal Friction and Young's Modulus of Copper
4. Effects of Neutron Irradiation upon the Young's Modulus and Internal Friction of Copper Single Crystals
5. The effects of neutron irradiation upon the internal friction of copper single crystals at liquid nitrogen temperatures
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1. Optimal sample shape for internal friction measurements using a dual cantilevered beam;Journal of Applied Physics;1985-08-15
2. ON THE PROPERTIES OF OXIDIZED AND REDUCED COPPER SAMPLES USED FOR ELECTRON IRRADIATION EXPERIMENTS IN THE kHz-RANGE;Le Journal de Physique Colloques;1983-12
3. Determination of dislocation pinning and depinning stages in cold-worked copper;Scripta Metallurgica;1978-07
4. Dislocation‐defect dragging in electron‐irradiated copper over the temperature range 4.2–350°K;Journal of Applied Physics;1978-01
5. The interaction of point defects with dislocations in high purity copper above room temperature. II. Quenching;Radiation Effects;1976-01
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