Cavitation damage prediction for spallation target vessels by assessment of acoustic vibration
- 作者:Masatoshi Futakawa ; Hiroyuki Kogawa ; Shoichi Hasegawa ; Yujiro Ikeda ; Bernie Riemer ; Mark Wendel ; John Haines ; Gü ; nter Bauer ; Takashi Naoe ; Kohei Okita ; Akiko Fujiwara ; Yoichiro Matsumoto ; Nobuatsu
- 关键词:Lysine ; Methanogen ; Cell wall ; Convergent evolution ; Biosynthesis
- 刊名:Journal of Nuclear Materials
- 出版年:2008
- 期刊代码:51_00223115
- 类别:ms
- 出版时间:30 June 2008
- 卷:377
- 期:1
- 页码:182-188
- 文件大小:732 K
摘要
Liquid-mercury target systems for MW-class spallation neutron sources are being developed around the world. Proton beams are used to induce the spallation reaction. At the moment the proton beam hits the target, pressure waves are generated in the mercury because of the abrupt heat deposition. The pressure waves interact with the target vessel leading to negative pressure that may cause cavitation along the vessel wall. In order to estimate the cavitation erosion, i.e. the pitting damage formed by the collapse of cavitation bubbles, off-beam tests were performed by using an electric magnetic impact testing machine (MIMTM), which can impose equivalent pressure pulses in mercury. The damage potential was defined based on the relationship between the pitting damage and the time-integrated acoustic vibration induced by impact due to the bubble collapses. Additionally, the damage potential was measured in on-beam tests carried out by using the proton beam at WNR (Weapons Neutron Research) facility in Los Alamos Neutron Science Center (LANSCE). In this paper, the concept of the damage potential, the relationship between the pitting damage formation and the damage potential both in off-beam and on-beam tests is shown.