超声诊断场中的气泡塌陷和回弹

E. Aymé‐Bellegarda
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引用次数: 0

摘要

研究了驱动诊断超声场的有限幅值畸变对可压缩液体中充气球形微泡坍缩和回弹的影响。指出空化损伤的机制之一是气泡破裂时产生的非常大的气体压力以及随后由气泡反弹形成的压力波。数值结果表明,反弹气泡辐射的压力峰值强度取决于(i)声波频率,(ii)初始气泡尺寸,以及(iii)失真脉冲傅里叶级数描述中基波压力幅值的大小。当压力尖峰从气泡壁向外传播时,其强度随距离坍缩中心的倒数而衰减。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Bubble collapse and rebound in a diagnostic ultrasonic field
The influence of the finite-amplitude distortion of a driving diagnostic ultrasonic field on the collapse and rebound of a gas-filled spherical microbubble in a compressible liquid is investigated. It is noted that one of the mechanisms for cavitation damage comes from the very large gas pressures generated at bubble collapse and in the subsequent pressure wave formed by bubble rebound. Numerical results show that the strength of the pressure spikes radiated by the rebounding bubble depends on (i) the acoustic frequency, (ii) the initial bubble size, and (iii) the magnitude of the pressure amplitude of the fundamental in a Fourier series description of the distorted pulse. As the pressure spikes propagate outward from the bubble wall, their strength is attenuated as the reciprocal of the distance from the center of collapse.<>
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