KOGAWA Hiroyuki | Japan Atomic Energy Agency

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著作論文

Mockup Experiments on Investigate the Leak Rate Correlation between Mercury and Helium for the Mercury Target System of J-PARC
Mitigation Technologies for Damage Induced by Pressure Waves in High-Power Mercury Spallation Neutron Sources (II) : Bubbling Effect to Reduce Pressure Wave
Microbubble Formation at a Nozzle in Liquid Mercury
Mitigation Technologies for Damage Induced by Pressure Waves in High-Power Mercury Spallation Neutron Sources (I) —Material Surface Improvement—
Wettability effect on bubble formation at orifice type nozzle (特集流動の可視化)
Failure Probability Estimation of Multi-walled Vessels for Mercury Target
Evaluation of Mechanical Properties and Microstructure in Ion-Irradiated Surface Layer(Recent Advances in Materials and Processing (I))
Micro-Impact Damage Caused by Mercury Bubble Collapse(Recent Advances in Materials and Processing (I))
Damage Diagnostic of Localized Impact Erosion by Measuring Acoustic Vibration
Pitting Damage Formation up to over 10 Million Cycles Off-line Test by MIMTM
ICONE11-36175 Off-line tests on pitting damage in mercury target
Distribution of Microbubble Sizes and Behavior of Large Bubbles in Mercury Flow in a Mockup Target Model of J-PARC
315 Mechanical Property Evaluation of Nanoscale Zone by Indentation Technique
Distribution of Microbubble Sizes and Behavior of Large Bubbles in Mercury Flow in a Mockup Target Model of J-PARC
Dynamic Response of Mercury Subjected to Pressure Wave
Mitigation Technologies for Damage Induced by Pressure Waves in High-Power Mercury Spallation Neutron Sources (III) — Consideration of the Effect of Microbubbles on Pressure Wave Propagation through a Water Test —
ICONE11-36094 STRUCTURAL INTEGRITY OF BEAM WINDOW OF MERCURY TARGET
Mitigation Technologies for Damage Induced by Pressure Waves in High-Power Mercury Spallation Neutron Sources (III) : Consideration of the Effect of Microbubbles on Pressure Wave Propagation through a Water Test

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