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In this paper, the interaction between elastic particle and cavitation bubble is considered, the expression of microstreaming velocity and shear stress around the elastic particle are derived by using the theory of acoustic scattering. Taking into account the two predominant modes of elastic particle: n = 0 mode and n = 1 mode, the effects of the distance and the ratio of the radius and the relative position on microstreaming distribution, and the effects of the particle radius and the driving frequency on shear stress distribution are investigated. It is demonstrated that the interaction can increase the amplitude of microstreaming velocity, especially the tangential component of microstreaming velocity, and the shear stress. As the distance between elastic particle and cavitation bubble increases, the interaction weakens and the amplitude of the microstreaming velocity around the elastic particle decreases. When the bubble is in resonance, the microstreaming velocity around the elastic particle is significantly enhanced. The shear stress of the particle is affected by the particle radius and the frequency of sound field. As the particle radius and the frequency of sound field are larger, the external scattering sound becomes stronger and the amplitude of shear stress on the surface of particles turns larger.
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Keywords:
- elastic particle /
- cavitation bubble /
- microstreaming /
- acoustic scattering
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[3] 梁金福, 陈伟中, 邵纬航, 周超, 杜联芳, 金利芳 2013 62 084708Google Scholar
Liang J F, Chen W Z, Shao W H, Zhou C, Du L F, Jin L F 2013 Acta Phys. Sin. 62 084708Google Scholar
[4] 于洁, 郭霞生, 屠娟, 章东 2015 64 094306Google Scholar
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[6] 吴文华, 翟薇, 胡海豹, 魏炳波 2017 66 194303Google Scholar
Wu W H, Zhai W, Hu H B, Wei B B 2017 Acta Phys. Sin. 66 194303Google Scholar
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[8] Wu J R, Du G H 1997 J. Acoust. Soc. Am. 101 1899Google Scholar
[9] Liu X Z, Wu J R 2009 J. Acoust. Soc. Am. 125 1319Google Scholar
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[13] Collis J, Manasseh R, Liovic P, Tho P, Ooi A, Petkovic-Duran K, Zhu Y 2010 Ultrasonics 50 273Google Scholar
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[15] Doinikov A A, Ayache B 2014 J. Fluid Mech. 742 425Google Scholar
[16] Tho P, Manasseh R, Ooi A 2007 J. Fluid Mech. 122 191Google Scholar
[17] Wang L, Tu J, Guo X S, Xu D, Zhang D 2014 Chin. Phys. B 23 124302Google Scholar
[18] Wang C, Cheng J 2013 J. Acoust. Soc. Am. 134 1675Google Scholar
[19] 武耀蓉, 王成会, 莫润阳, 陈时 2017 陕西师范大学学报(自然科学版) 45 50
Wu Y R, Wang C H, Mo R Y, Chen S 2017 J. Shaanxi Normal Univ. (Nat. Sci. Ed.) 45 50
[20] 武耀蓉, 王成会, 陈时 2017 南京大学学报 (自然科学版) 53 1
Wu Y R, Wang C H, Chen S 2017 J. Nanjing Univ. (Nat. Sci. Ed.) 53 1
[21] Hasegawa T, Ochi M, Matsuzawa K 1969 J. Acoust. Soc. Am. 46 1139Google Scholar
[22] L in, Wen H 1983 J. Acoust. Soc. Am. 73 736Google Scholar
[23] Li S, Han R, Zhang A M 2016 J. Fluid. Struct. 65 333Google Scholar
[24] Shi J, Yang D S, Zhang H Y, Shi S G, Li S, Hu B 2017 Chin. Phys. B 26 074301Google Scholar
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图 3
${{{r_1}} / {{R_1}}}\;\left( {\theta = {{\text{π}} / 4}} \right)$ 和${{D'} / {{R_1}}}\;(D' = D - {R_1} - {R_2}, {\theta _1} = {{\text{π}} / 4})$ 对弹性粒子壁面微流分布影响 (a)与(c)$n = 0$ 模式; (b)与(d)$n = 1$ 模式Figure 3. Streaming as a function of
${{{r_1}} / {{R_1}}}$ $\left( {\theta = {{\text{π}} / 4}} \right)$ and${{D'} / {{R_1}}}\;(D' = D - {R_1} - {R_2}, {\theta _1} = {{\text{π}} / 4})$ : (a) and (c)$n = 0$ mode; (b) and (d)$n = 1$ mode. -
[1] Rayleigh L 1917 Philos. Mag. 34 94Google Scholar
[2] Marberger M, Stackl W, Hruby W, Wurster H, Schnedl W 1985 World J. Urol. 3 27Google Scholar
[3] 梁金福, 陈伟中, 邵纬航, 周超, 杜联芳, 金利芳 2013 62 084708Google Scholar
Liang J F, Chen W Z, Shao W H, Zhou C, Du L F, Jin L F 2013 Acta Phys. Sin. 62 084708Google Scholar
[4] 于洁, 郭霞生, 屠娟, 章东 2015 64 094306Google Scholar
Yu J, Guo X S, Tu J, Zhang D 2015 Acta Phys. Sin. 64 094306Google Scholar
[5] Kolb J, Nyborg W L 1956 J. Acoust. Soc. Am. 28 1237Google Scholar
[6] 吴文华, 翟薇, 胡海豹, 魏炳波 2017 66 194303Google Scholar
Wu W H, Zhai W, Hu H B, Wei B B 2017 Acta Phys. Sin. 66 194303Google Scholar
[7] Elder, Samuel A 1959 J. Acoust. Soc. Am. 31 54Google Scholar
[8] Wu J R, Du G H 1997 J. Acoust. Soc. Am. 101 1899Google Scholar
[9] Liu X Z, Wu J R 2009 J. Acoust. Soc. Am. 125 1319Google Scholar
[10] Doinikov A A, Bouakaz A 2010 J. Acoust. Soc. Am. 127 1218Google Scholar
[11] Doinikov A A, Bouakaz A 2010 J. Acoust. Soc. Am. 127 703Google Scholar
[12] Manasseh R, Tho P, Ooi A, Petkovic-Duran K, Zhu Y 2010 Phys. Procedia 3 427Google Scholar
[13] Collis J, Manasseh R, Liovic P, Tho P, Ooi A, Petkovic-Duran K, Zhu Y 2010 Ultrasonics 50 273Google Scholar
[14] Doinikov A A, Bouakaz A 2016 J. Fluid Mech. 796 318Google Scholar
[15] Doinikov A A, Ayache B 2014 J. Fluid Mech. 742 425Google Scholar
[16] Tho P, Manasseh R, Ooi A 2007 J. Fluid Mech. 122 191Google Scholar
[17] Wang L, Tu J, Guo X S, Xu D, Zhang D 2014 Chin. Phys. B 23 124302Google Scholar
[18] Wang C, Cheng J 2013 J. Acoust. Soc. Am. 134 1675Google Scholar
[19] 武耀蓉, 王成会, 莫润阳, 陈时 2017 陕西师范大学学报(自然科学版) 45 50
Wu Y R, Wang C H, Mo R Y, Chen S 2017 J. Shaanxi Normal Univ. (Nat. Sci. Ed.) 45 50
[20] 武耀蓉, 王成会, 陈时 2017 南京大学学报 (自然科学版) 53 1
Wu Y R, Wang C H, Chen S 2017 J. Nanjing Univ. (Nat. Sci. Ed.) 53 1
[21] Hasegawa T, Ochi M, Matsuzawa K 1969 J. Acoust. Soc. Am. 46 1139Google Scholar
[22] L in, Wen H 1983 J. Acoust. Soc. Am. 73 736Google Scholar
[23] Li S, Han R, Zhang A M 2016 J. Fluid. Struct. 65 333Google Scholar
[24] Shi J, Yang D S, Zhang H Y, Shi S G, Li S, Hu B 2017 Chin. Phys. B 26 074301Google Scholar
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