Neutron irradiation damage in molybdenum
- 1 October 1971
- journal article
- research article
- Published by Taylor & Francis in Philosophical Magazine
- Vol. 24 (190), 745-765
- https://doi.org/10.1080/14786437108217048
Abstract
Molybdenum single crystals (7000 ≤ ρ293°K/ρ4·2°K ≤ 8000) have been irradiated to a dose of ∼ 7 × 1019 fission n. cm−2 at 473°K and defect structures have been investigated by electron trasmission microscopy prior to and after a post-irradiation anneal of one hour at 1173°K. A quantitative and geometrical characterization has been carried out on small defect clusters (20 Å ≤ image diameter ≤ 100 Å) in an irradiated crystal and on resolved dislocation loops (100 ≤ image diameter ≤ 1100 Å) in an irradiated–annealed crystal. These two structural states have been related in terms of both the nature and the density of visible defects. The irradiated structure has also been compared in these terms with molybdenum crystals of the same purity damaged at 77°K to doses of ∼ 1 × 1020 and ∼ 5 × 1017 fission n. cm−2.Keywords
This publication has 10 references indexed in Scilit:
- Neutron irradiation damage in molybdenumPhilosophical Magazine, 1971
- Neutron irradiation damage in molybdenumPhilosophical Magazine, 1971
- Neutron irradiation damage in molybdenumPhilosophical Magazine, 1971
- Neutron irradiation damage in molybdenumPhilosophical Magazine, 1971
- Vacancy and Interstitial Cluster Production in Neutron-Irradiated α IronJournal of Applied Physics, 1966
- On the formation of interstitial loops in b.c.c. metalsPhilosophical Magazine, 1965
- Neutron irradiation damage in molybdenumPhilosophical Magazine, 1965
- The growth of prismatic dislocation loops during annealingPhilosophical Magazine, 1960
- Production of Atomic Displacements by High-Energy ParticlesAmerican Journal of Physics, 1956
- The Displacement of Atoms in Solids by RadiationReports on Progress in Physics, 1955