Post irradiation recovery of irradiation damage
- 1 October 1972
- journal article
- research article
- Published by Taylor & Francis in Radiation Effects
- Vol. 16 (3), 271-280
- https://doi.org/10.1080/00337577208231230
Abstract
During irradiation, fast neutrons produce regions depleted of atoms. It is believed that these regions are responsible for most of the hardening observed after neutron irradiation. The present paper discusses the dissolution of the depleted zones during a post-irradiation anneal and the subsequent recovery of the yield strength. The zones dissolve by emitting vacancies and therefore have an activation energy made up of the sum of the vacancy binding energy to the zone and the vacancy migration energy. The resultant activation energy increases with recovery. For zirconium base alloys it was found that the activation energy varies from 49,700cal/mole at 10 per cent recovery to 61,600 cal/mole at 50 per cent recovery. Experimental data available indicate a similar increase in the activation energy with recovery.Keywords
This publication has 8 references indexed in Scilit:
- The defect structure of depleted zones in irradiated tungstenActa Metallurgica, 1971
- Irradiation creep associated with dislocation climbRadiation Effects, 1971
- Depleted zone formation and recovery during neutron irradiationRadiation Effects, 1971
- Vacancy damage in heavy ion and neutron-irradiated tungstenPhilosophical Magazine, 1970
- Field ion microscope examination of heavy ion radiation damage in iridium II. analysis of vacancy distributionsPhilosophical Magazine, 1970
- Dislocation loops in irradiated zirconiumPhilosophical Magazine, 1966
- Presence of Depleted Zones in PlatinumPhysical Review Letters, 1966
- Radiation hardening of copper single crystalsJournal of Nuclear Materials, 1960