Defect Structure Development Mechanisms during Fission and Fusion Neutron Irradiation
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概要
- 論文の詳細を見る
A research history at the Oarai Branch for JMTR Utilization of the Institute of Materials Research, Tohoku University, on neutron irradiation of materials for 8 years is reviewed by quoting 35 published papers. It consists of fusion neutron irradiation with RTNS-II (Rotating Target Neutron Source, LLNL) and fission neutron irradiation with JMTR (Japan Materials Testing Reactor, JAERI). Research program of D-T fusion neutron irradiation with RTNS-II is explained. Investigation of defect structures in a variety of materials is the basis for analysis. Major subjects are chracteristics of cascade damage, point defect processes in defect structure evolution, and recoil energy effects. By the improvement of control during JMTR irradiation, the first reliable experimental data are obtained for fission-fusion correlation. Proposals are made for the future prospect of the Oarai Branch.
- 東北大学の論文
- 1991-03-05
著者
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KIRITANI Michio
Department of Nuclear Engineering, School of Engineering, Nagoya University
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Kiritani Michio
Department Of Electrnics Hiroshima Institute Of Technology
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Kiritani Michio
Department Of Nuclear Engineering School Of Engineering Nagoya University
関連論文
- Development of Controlled Temperature-Cycle Irradiation Technique in JMTR
- Analysis of the Clustering Process of Supersaturated Lattice Vacancies
- Growth of Interstitial Type Dislocation Loops and Vacancy Mobility in Electron Irradiated Metals
- Interstitial Clusters in Electron Irradiated Aluminum
- An Evidence for a Long Range Interaction between a Dislocation and Interstitial Atoms
- Electron Radiation Damage and Properties of Point Defects in Molybdenum
- Effect of Pressure on the Crystallization of Amorphous Fe-B Alloys
- Second Order Electrical Resistivity Decay Quenched Aluminum
- The Effect of Planar Sinks on the Interstitial Loop Growth under High Temperature Neutron Irradiation
- Fission-Fusion Correlation in Mechanical Property Changes of Several Pure FCC Metals
- Localized electron irradiation methods and their application to detection of flow-field of point defects
- Recovery of Gold Thin Films Vacuum Deposited on a Substrate at Liquid Helium Temperature
- Free Migration of Interstitial Atoms in Metals
- Electron Radiation Damage of Iron in High Voltage Electron Microscope
- Defect Structure Development Mechanisms during Fission and Fusion Neutron Irradiation
- Directional Arrangement of Defect Clusters in Electron-Irradiated Copper
- Electron Radiation Induced Diffusion of Point Defects in Metals
- Release of Impurities from a Moving Grain Boundary in Molybdenum
- Progress of Research on the Mechanism of Microstructure Evolution during Irradiation with Collision Cascades
- Point Defect Clusters in Electron-Irradiated Gold