Experiment investigation on the liquid jet of laser-induced bubble in different ambient pressures

LI Bei-bei; ZHANG Hong-chao; NI Xiao-wu; LU Jian

doi:10.3969/j.issn.1001-3806.2012.06.010

Volume 36 Issue 6

Sep. 2012

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Experiment investigation on the liquid jet of laser-induced bubble in different ambient pressures

1.
Department of Information Physics and Engineering, School of Science, Nanjing University of Science and Technology, Nanjing 210094, China

Corresponding author: LU Jian, lj6805@163.com
Received Date: 2012-02-29
Accepted Date: 2012-04-05

Abstract

In order to study effect of ambient pressure on the liquid jet of laser-induced bubbles,the collapse time and the water hammer pressure of the liquid jet were obtained after studying the collapse action of the bubbles by means of a fiber-optic diagnostic technique based on probe beam deflection(PBD) in experiments.The data indicate that the collapse time decreases nonlinearly with the ambient pressure increasing,and the water hammer pressure increases nonlinearly with the ambient pressure increasing.At the initial stage of the collapse stage,the acceleration of the bubble wall and the effect of the ambient pressure on the acceleration are very small;at the final stage of the collapse stage,the velocity of the center of the top bubble wall increases very quickly,and the acceleration increases with the ambient pressure increasing at the same stage.It's helpful to underwater laser processing and study about cavitation bubble dynamics.
- laser physics,
- laser-induced bubble,
- optical beam deflection,
- liquid jet,
- water hammer

References

[1]	BRENNEN C E.Cavitation and bubble dynamics[M].London:Oxford University Press,1995:1-50.
[2]	LAUTERBORN W,KURZ T.Physics of bubble oscillations[J].Reports on Progress in Physics,2010,73(10):106501.
[3]	LI Sh Y,HU Sh L,LIU X Y,et al.Spectrum properties of laser-induced cavitation bubble collapse sound waves[J].Laser Technology, 2007,31(3):281-284(in Chinese).
[4]	SONG W D,HONG M H,LUKYANCHUK B,et al.Laser-induced cavitation bubbles for cleaning of solid surfaces[J].Journal of Applied Physics,2004,95(6):2952-2956.
[5]	ZHAO R,XU R Q,SHEN Zh H,et al.Experimental investigation of the collapse of laser-generated cavitation bubbles near a solid boundary[J].Optics&Laser Technology,2007,39(5):968-972.
[6]	DAN M,CHEEKE J D N,KONDIC L.Ambient pressure effect on single-bubble sonoluminescence[J].Physical Review Letters,1999, 83(9):1870.
[7]	LU X P,LIU M H,JIANG Zh H,et al.Effects of ambient pressure on bubble characteristics[J].Chinese Physics Letters,2002,19 (5):704-706.
[8]	GREGORČIČP,PETKOVŠEK R,MOŽINA J.Investigation of a cavitation bubble between a rigid boundary and a free surface[J].Journal of Applied Physics,2007,102(9):094904.
[9]	PETKOVŠEK R,GREGORČIČ P.A laser probe measurement of cavitation bubble dynamics improved by shock wave detection and compared to shadow photography[J].Journal of Applied Physics,2007, 102(4):044909.
[10]	GLYNN H R,CRUM L A.Mie scattering used to determine spherical bubble oscillations[J].Applied Optics,1990,29(28):4182-4191.
[11]	VOGEL A,APITZ I,FREIDANK S,et al.Sensitive high-resolution white-light schlieren technique with a large dynamic range for the investigation of ablation dynamics[J].Optics Letters,2006,31 (12):1812-1814.
[12]	BRUJAN E A,KEEN G S,VOGEL A,et al.The final stage of the collapse of a cavitation bubble close to a rigid boundary[J].Physics of Fluids,2002,14(1):85-92.
[13]	CHEN X,XU R Q,CHEN J P,et al.Shock-wave propagation and cavitation bubble oscillation by Nd:YAG laser ablation of a metal in water[J].Applied Optics,2004,43(16):3251-3257.
[14]	ZHAO R,LIANG Zh Ch,XU R Q,et al.Dynamics of laser-induced cavitation bubble near solid boundary[J].Japanese Journal of Applied Physics,2008,47(7):5482-5485.
[15]	SHAW S J,SCHIFFERS W P,GENTRY T P,et al.The interaction of a laser-generated cavity with a solid boundary[J].The Journal of the Acoustical Society of America,2000,107(6):3065.
[16]	LIU X M,HE J,LU J,et al.Growth and collapse of laser-induced bubbles in glycerol-water mixtures[J].Chinese Physics,2008,B17 (7):2574-2579.
[17]	LIU X M,HE J,LU J,et al.Effect of surface tension on a liquidjet produced by the collapse of a laser-induced bubble against a rigid boundary[J].Optics&Laser Technology,2009,41(1):21-24.
[18]	AKHATOV I,LINDAU O,TOPOLNIKOV A,et al.Collapse and rebound of a laser-induced cavitation bubble[J].Physics of Fluids,2001,13(10):2805-2819.
[19]	LI B B,ZHANG H Ch,LU J,et al.Experimental investigation of the effect of ambient pressure on laser-induced bubble dynamics[J]. Optics&Laser Technology,2011,43(8):1499-1503.
[20]	KONDIC L,YUAN C,CHAN C K.Ambient pressure and singlebubble sonoluminescence[J].Physical Review,1998,E57(1): R32.
[21]	NI X W,CHEN X,LU J.Study on the mechanism of interaction between Laser and liquid material[J].Laser Technology,2002,26 (4):258-261(in Chinese).
[22]	XU R Q,CHEN X,SHEN Zh H,et al.A fiber-optic diagnostic technique for mechanical detection of the laser-metal interaction underwater[J].Physics of Fluids,2004,16(3):832-835.
[23]	XU R Q,CHEN X,SHEN Zh H,et al.Dynamics of laser-induced cavitation bubbles near solid boundaries[J].Acta Physica Sinica,2004,53(5):1413-1418(in Chinese).
[24]	CHEN X,XU R Q,SHEN Zh H,et al.Optical investigation of cavitation erosion by laser-induced bubble collapse[J].Optics&Laser Technology,2004,36(3):197-203.
[25]	LUO J,LI J,DONG G N.Two-dimensional simulation of the collapse of vapor bubbles near a wall[J].Journal of Fluids Engineering,2008,130(9):091301-091304.
[26]	PHILIPP A,LAUTERBORN W.Cavitation erosion by single laserproduced bubbles[J].Journal of Fluid Mechanics,1998,361(1): 75-116.
[27]	XU R Q,ZHAO R,CUI Y P,et al.Investigation of cavitation bubble dynamics by fiber-coupling optical beam deflection technique[J].Microwave and Optical Technology Letters,2008,50(7): 1767-1770.

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通讯作者: 陈斌, bchen63@163.com

1.
沈阳化工大学材料科学与工程学院沈阳 110142

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Experiment investigation on the liquid jet of laser-induced bubble in different ambient pressures

Corresponding author: LU Jian, lj6805@163.com

1. Department of Information Physics and Engineering, School of Science, Nanjing University of Science and Technology, Nanjing 210094, China

Received Date: 2012-02-29

Accepted Date: 2012-04-05

Available Online: 2012-11-25

Abstract: In order to study effect of ambient pressure on the liquid jet of laser-induced bubbles,the collapse time and the water hammer pressure of the liquid jet were obtained after studying the collapse action of the bubbles by means of a fiber-optic diagnostic technique based on probe beam deflection(PBD) in experiments.The data indicate that the collapse time decreases nonlinearly with the ambient pressure increasing,and the water hammer pressure increases nonlinearly with the ambient pressure increasing.At the initial stage of the collapse stage,the acceleration of the bubble wall and the effect of the ambient pressure on the acceleration are very small;at the final stage of the collapse stage,the velocity of the center of the top bubble wall increases very quickly,and the acceleration increases with the ambient pressure increasing at the same stage.It's helpful to underwater laser processing and study about cavitation bubble dynamics.

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Reference (27)

[1]	BRENNEN C E.Cavitation and bubble dynamics[M].London:Oxford University Press,1995:1-50.
[2]	LAUTERBORN W,KURZ T.Physics of bubble oscillations[J].Reports on Progress in Physics,2010,73(10):106501.
[3]	LI Sh Y,HU Sh L,LIU X Y,et al.Spectrum properties of laser-induced cavitation bubble collapse sound waves[J].Laser Technology, 2007,31(3):281-284(in Chinese).
[4]	SONG W D,HONG M H,LUKYANCHUK B,et al.Laser-induced cavitation bubbles for cleaning of solid surfaces[J].Journal of Applied Physics,2004,95(6):2952-2956.
[5]	ZHAO R,XU R Q,SHEN Zh H,et al.Experimental investigation of the collapse of laser-generated cavitation bubbles near a solid boundary[J].Optics&Laser Technology,2007,39(5):968-972.
[6]	DAN M,CHEEKE J D N,KONDIC L.Ambient pressure effect on single-bubble sonoluminescence[J].Physical Review Letters,1999, 83(9):1870.
[7]	LU X P,LIU M H,JIANG Zh H,et al.Effects of ambient pressure on bubble characteristics[J].Chinese Physics Letters,2002,19 (5):704-706.
[8]	GREGORČIČP,PETKOVŠEK R,MOŽINA J.Investigation of a cavitation bubble between a rigid boundary and a free surface[J].Journal of Applied Physics,2007,102(9):094904.
[9]	PETKOVŠEK R,GREGORČIČ P.A laser probe measurement of cavitation bubble dynamics improved by shock wave detection and compared to shadow photography[J].Journal of Applied Physics,2007, 102(4):044909.
[10]	GLYNN H R,CRUM L A.Mie scattering used to determine spherical bubble oscillations[J].Applied Optics,1990,29(28):4182-4191.
[11]	VOGEL A,APITZ I,FREIDANK S,et al.Sensitive high-resolution white-light schlieren technique with a large dynamic range for the investigation of ablation dynamics[J].Optics Letters,2006,31 (12):1812-1814.
[12]	BRUJAN E A,KEEN G S,VOGEL A,et al.The final stage of the collapse of a cavitation bubble close to a rigid boundary[J].Physics of Fluids,2002,14(1):85-92.
[13]	CHEN X,XU R Q,CHEN J P,et al.Shock-wave propagation and cavitation bubble oscillation by Nd:YAG laser ablation of a metal in water[J].Applied Optics,2004,43(16):3251-3257.
[14]	ZHAO R,LIANG Zh Ch,XU R Q,et al.Dynamics of laser-induced cavitation bubble near solid boundary[J].Japanese Journal of Applied Physics,2008,47(7):5482-5485.
[15]	SHAW S J,SCHIFFERS W P,GENTRY T P,et al.The interaction of a laser-generated cavity with a solid boundary[J].The Journal of the Acoustical Society of America,2000,107(6):3065.
[16]	LIU X M,HE J,LU J,et al.Growth and collapse of laser-induced bubbles in glycerol-water mixtures[J].Chinese Physics,2008,B17 (7):2574-2579.
[17]	LIU X M,HE J,LU J,et al.Effect of surface tension on a liquidjet produced by the collapse of a laser-induced bubble against a rigid boundary[J].Optics&Laser Technology,2009,41(1):21-24.
[18]	AKHATOV I,LINDAU O,TOPOLNIKOV A,et al.Collapse and rebound of a laser-induced cavitation bubble[J].Physics of Fluids,2001,13(10):2805-2819.
[19]	LI B B,ZHANG H Ch,LU J,et al.Experimental investigation of the effect of ambient pressure on laser-induced bubble dynamics[J]. Optics&Laser Technology,2011,43(8):1499-1503.
[20]	KONDIC L,YUAN C,CHAN C K.Ambient pressure and singlebubble sonoluminescence[J].Physical Review,1998,E57(1): R32.
[21]	NI X W,CHEN X,LU J.Study on the mechanism of interaction between Laser and liquid material[J].Laser Technology,2002,26 (4):258-261(in Chinese).
[22]	XU R Q,CHEN X,SHEN Zh H,et al.A fiber-optic diagnostic technique for mechanical detection of the laser-metal interaction underwater[J].Physics of Fluids,2004,16(3):832-835.
[23]	XU R Q,CHEN X,SHEN Zh H,et al.Dynamics of laser-induced cavitation bubbles near solid boundaries[J].Acta Physica Sinica,2004,53(5):1413-1418(in Chinese).
[24]	CHEN X,XU R Q,SHEN Zh H,et al.Optical investigation of cavitation erosion by laser-induced bubble collapse[J].Optics&Laser Technology,2004,36(3):197-203.
[25]	LUO J,LI J,DONG G N.Two-dimensional simulation of the collapse of vapor bubbles near a wall[J].Journal of Fluids Engineering,2008,130(9):091301-091304.
[26]	PHILIPP A,LAUTERBORN W.Cavitation erosion by single laserproduced bubbles[J].Journal of Fluid Mechanics,1998,361(1): 75-116.
[27]	XU R Q,ZHAO R,CUI Y P,et al.Investigation of cavitation bubble dynamics by fiber-coupling optical beam deflection technique[J].Microwave and Optical Technology Letters,2008,50(7): 1767-1770.

Experiment investigation on the liquid jet of laser-induced bubble in different ambient pressures

Abstract

References

Proportional views

通讯作者: 陈斌, bchen63@163.com

Proportional views