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膜式水听器测量和数值模拟高强度聚焦超声场直至冲击波形成阶段。

Membrane hydrophone measurement and numerical simulation of HIFU fields up to developed shock regimes.

机构信息

Physikalisch-Technische Bundesanstalt, Braunschweig, Germany.

出版信息

IEEE Trans Ultrason Ferroelectr Freq Control. 2013 Feb;60(2):290-300. doi: 10.1109/TUFFC.2013.2565.

Abstract

For the characterization of high-intensity focused ultrasound (HIFU) fields, hydrophone measurements should be performed in water in the whole range of the radiated power; however, cavitation occurs at high output, leading to the destruction of the hydrophone. To avoid this problem, a new hydrophone with additional protective layers covering the electrodes was developed and tested in the experiments. A single-element 1-MHz focusing ultrasound source was used for detailed measurements of the acoustic field in the axial and lateral planes. Measurements were performed with a new membrane hydrophone up to the focal peak compressional and rarefactional pressures of 55.6 and of 12.8 MPa, respectively, when the shock front had already formed in the waveform. Numerical modeling for the beams of periodic waves with an initially uniform amplitude distribution was performed, based on the Khokhlov-Zabolotskaya-Kuznetsov equation. Numerical solutions were compared with the experimental data and found to be in good agreement (within 10%). The influences of the limited bandwidth and the spatial averaging effect of the hydrophone on the accurate measurements of the acoustic field parameters were also investigated.

摘要

为了对高强度聚焦超声(HIFU)场进行特性描述,水听器测量应在整个辐射功率范围内在水中进行;然而,在高输出时会发生空化,导致水听器损坏。为了避免这个问题,开发了一种带有覆盖电极的附加保护层的新型水听器,并在实验中进行了测试。使用单个 1MHz 聚焦超声源在轴向和横向平面上对声场进行了详细测量。当冲击波已经在波形中形成时,使用新的膜水听器进行测量,直至达到 55.6 和 12.8 MPa 的聚焦峰值压缩和稀疏压力。基于 Khokhlov-Zabolotskaya-Kuznetsov 方程,对具有初始均匀幅度分布的周期性波的波束进行了数值建模。数值解与实验数据进行了比较,发现吻合良好(在 10%以内)。还研究了水听器的有限带宽和空间平均效应对声场参数精确测量的影响。

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