Radial response of individual bubbles subjected to shock wave lithotripsy pulses in vitro

Matula TJ.; Hilmo PR.; Storey BD.; Szeri AJ.

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Radial response of individual bubbles subjected to shock wave lithotripsy pulses in vitro

机译：体外冲击波碎石脉冲对单个气泡的径向响应

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Direct measurements of individual bubble oscillations in lithotripsy fields have been performed using light-scattering techniques. Studies were performed with bubble clouds in gassy water as well as single levitated bubbles in degassed water. There is direct evidence that the bubble survives the inertial collapse, rebounding several times before breaking up. Bubble dynamics calculations agree well with the observations, provided that vapor trapping (a reduction in condensation during bubble collapse) is included. Furthermore, the afterbounces are dominated by vapor diffusion, not gas diffusion. Vapor trapping is important in limiting the collapse strength of bubbles, and in sonochemical activity. (C) 2002 American Institute of Physics. [References: 59]

机译：已经使用光散射技术对碎石场中的单个气泡振荡进行了直接测量。研究使用了含气水中的气泡云以及脱气水中的单个悬浮气泡。有直接证据表明，气泡在惯性崩溃后仍能幸存，在破裂前反弹了几次。泡沫动力学计算与观察结果非常吻合，但前提是要包括蒸气捕集（减少泡沫破裂过程中的冷凝水）。此外，余弹主要由蒸气扩散而不是气体扩散决定。蒸气捕集在限制气泡的破裂强度以及声化学活性方面很重要。（C）2002美国物理研究所。 [参考：59]

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《Physics of fluids》 |2002年第3期|共9页
作者
Matula TJ.; Hilmo PR.; Storey BD.; Szeri AJ.;
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1. Radial response of individual bubbles subjected to shock wave lithotripsy pulses in vitro [J] . Matula TJ., Hilmo PR., Storey BD., Physics of fluids . 2002,第3期

机译：体外冲击波碎石脉冲对单个气泡的径向响应
2. Suppression of large intraluminal bubble expansion in shock wave lithotripsy without compromising stone comminution: Methodology and in vitro experiments [J] . Pei Zhong, Yufeng Zhou The Journal of the Acoustical Society of America . 2001,第6期

机译：在不损害结石粉碎性的情况下抑制冲击波碎石术中的大腔内气泡膨胀：方法学和体外实验
3. Effect of macroscopic air bubbles on cell lysis by shock wave lithotripsy in vitro. [J] . Williams JC Jr, Stonehill MA, Colmenares K, Ultrasound in Medicine and Biology . 1999,第3期

机译：宏观气泡对体外冲击波碎石术裂解细胞的影响。
4. Shock/bubble interaction near a rigid boundary in shock wave lithotripsy [C] . A.R. Jamaluddin, G.J. Ball, T.G. Leighton International Symposium on Shock Waves; 20040711-16; Beijing(CN) . 2004

机译：冲击波碎石中刚性边界附近的冲击/气泡相互作用
5. Dual pulses for cavitation control in lithotripsy: Shock wave-bubble interactions and bioeffects. [D] . Sokolov, Dahlia L. 2002

机译：控制碎石术中空化的双脉冲：冲击波-气泡相互作用和生物效应。
6. Shock-induced bubble jetting into a viscous fluid with application to tissue injury in shock-wave lithotripsy [O] . J. B. Freund, R. K. Shukla, A. P. Evan -1

机译：冲击波将气泡喷射到粘性流体中并应用于冲击波碎石术中的组织损伤
7. Integrated Structural Dynamic Response Analysis considering the UNDEX Shock Wave and Gas Bubble Pulse [O] . Sang-Gab Lee, Jeong-Il Hwon, Jung-Hoon Chung 2007

机译：考虑到撤销冲击波和气泡脉冲的综合结构动态响应分析
8. Simulations of shock waves and cavitation bubbles produced in water by picosecond and nanosecond laser pulses [R] . Scammon, R. J. , Chapyak, E. J. , Godwin, R. P. , 1998

机译：通过皮秒和纳秒激光脉冲模拟水中产生的冲击波和空化气泡

Radial response of individual bubbles subjected to shock wave lithotripsy pulses in vitro

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