By Mingxi Wan, Yi Feng, Gail ter Haar

This ebook bargains a scientific advent to the engineering rules and methods of cavitation in biomedicine at the foundation of its physics and mechanism. Adopting an interdisciplinary process, it covers components of curiosity starting from physics and engineering to the organic and clinical sciences. person chapters introduce the basics of cavitation, describe its characterization, keep an eye on and imaging innovations, and current cavitation-enhanced thermal and mechanical results and their functions. meant as either a reference paintings for graduate scholars, and as a advisor for scientists and engineers who paintings with cavitation in biomedicine, it offers a huge and strong beginning of data. the purpose is to bridge different disciplines concerned, and to advertise cross-discipline examine, therefore encouraging suggestions within the medical learn and engineering functions alike. Dr. Mingxi Wan is a professor at division of Biomedical Engineering, Xi’an Jiao Tong college, Xi’an, Shaanxi, China; Dr. Yi Feng works at division of Biomedical Engineering, Xi’an Jiao Tong college, Xi’an, Shaanxi, China; Dr. Gail ter Haar is a professor on the Institute of melanoma study, Sutton, Surry, united kingdom.

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Extra resources for Cavitation in Biomedicine: Principles and Techniques

Sample text

The bubble energy in each cycle can be estimated as follows: Enþ1 ¼ En  Rm;nþ1 Rm;n 3   P1 À Pv;nþ1 P1 À Pv;n ð1:41Þ where En indicates the fraction of the energy that remains for the nth oscillation period. 0. During bubble collapse, a counterjet develops very rapidly in the rebounding stage in conjunction with a necking process. Bubble oscillation can occur near rigid boundaries, as discussed, but it can also occur near liquid–air surface boundaries and compliant surface boundaries. Early in 1981, Blake and Gibson (1981) first investigated the motion of a vapor cavity near a free surface, and many related studies followed (Oguz and Prosperetti 1990; Robinson et al.

Miller MW, Miller DL, Brayman AA. A review of in vitro bioeffects of inertial ultrasonic cavitation from a mechanistic perspective. Ultrasound Med Biol. 1996;22(9):1131–54. Morgan KE, Allen JS, Dayton PA, Chomas JE, Klibaov A, Ferrara KW. Experimental and theoretical evaluation of microbubble behavior: effect of transmitted phase and bubble size. IEEE Trans Ultrason Ferroelectr Freq Control. 2000;47(6):1494–509. Neppiras E. Acoustic cavitation series: part one: Acoustic cavitation: an introduction.

Gas bubbles with organic skin as cavitation nuclei. J Acoust Soc Am. 1954;26:984–9. Gibson D, Blake JR. The growth and collapse of bubbles near deformable surfaces. Appl Sci Res. 1982;38(1):215–24. Glazman RE. Effects of adsorbed films on gas bubble radial oscillations. J Acoust Soc Am. 1983;74(3):980–6. Harvey EN, McElroy WD, Whiteley AH. On cavity formation in water. J Appl Phys. 1947;18 (2):162–72. Hay TA, Ilinskii YA, Zabolotskaya EA, Hamilton MF. Model for the dynamics of a spherical bubble undergoing small shape oscillations between parallel soft elastic layers.

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