Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
Obara, T.
Bourne, N.K.
and
Field, J.E.
1995.
Liquid-jet impact on liquid and solid surfaces.
Wear,
Vol. 186-187,
Issue. ,
p.
388.
Bourne, N. K.
and
Field, J. E.
1995.
A high-speed photographic study of cavitation damage.
Journal of Applied Physics,
Vol. 78,
Issue. 7,
p.
4423.
Kodama, T.
Takayama, K.
and
Nagayasu, N.
1996.
The dynamics of two air bubbles loaded by an underwater shock wave.
Journal of Applied Physics,
Vol. 80,
Issue. 10,
p.
5587.
Howison, S. D.
Ockendon, J. R.
Peregrine, D. H.
Moore, D. W.
Bourne, N. K.
Obara, T.
and
Field, J. E.
1997.
High-speed photography and stress gauge studies of jet impact upon surfaces.
Philosophical Transactions of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences,
Vol. 355,
Issue. 1724,
p.
607.
Bourne, N.K
and
Milne, A.M
2003.
The temperature of a shock-collapsed cavity.
Proceedings of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences,
Vol. 459,
Issue. 2036,
p.
1851.
Wixom, Ryan R.
Tappan, Alexander S.
Brundage, Aaron L.
Knepper, Robert
Ritchey, M. Barry
Michael, Joseph R.
and
Rye, Michael J.
2010.
Characterization of pore morphology in molecular crystal explosives by focused ion-beam nanotomography.
Journal of Materials Research,
Vol. 25,
Issue. 7,
p.
1362.
Lauer, E.
Hu, X. Y.
Hickel, S.
and
Adams, N. A.
2012.
Numerical investigation of collapsing cavity arrays.
Physics of Fluids,
Vol. 24,
Issue. 5,
Leighton, T. G.
Turangan, C. K.
Jamaluddin, A. R.
Ball, G. J.
and
White, P. R.
2013.
Prediction of far-field acoustic emissions from cavitation clouds during shock wave lithotripsy for development of a clinical device.
Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences,
Vol. 469,
Issue. 2150,
p.
20120538.
Michel Jr., Frederick C.
and
Kozyuk, Oleg
2014.
Chemical Processes for a Sustainable Future.
p.
84.
Betney, M. R.
Tully, B.
Hawker, N. A.
and
Ventikos, Y.
2015.
Computational modelling of the interaction of shock waves with multiple gas-filled bubbles in a liquid.
Physics of Fluids,
Vol. 27,
Issue. 3,
Meng, Yi
and
Zhang, Duo
2018.
Study on Impingement Damage Characteristics of Liquid Jet on Flat Plate.
IOP Conference Series: Materials Science and Engineering,
Vol. 452,
Issue. ,
p.
022161.
Peng, Chi
Tian, Shouceng
Li, Gensheng
and
Sukop, Michael C.
2019.
Simulation of multiple cavitation bubbles interaction with single-component multiphase Lattice Boltzmann method.
International Journal of Heat and Mass Transfer,
Vol. 137,
Issue. ,
p.
301.
Michael, Louisa
and
Nikiforakis, Nikolaos
2019.
Active Flow and Combustion Control 2018.
Vol. 141,
Issue. ,
p.
289.
Aganin, A. A.
Guseva, T. S.
and
Khismatullina, N. A.
2020.
Influence of a Liquid Film Covering a Solid on Liquid Jet Impact Against Its Surface.
Lobachevskii Journal of Mathematics,
Vol. 41,
Issue. 12,
p.
2621.
Sheng, Mao
Zhang, Xinyuan
Zhang, Rui
Zhang, Yuning
Peng, Chi
and
Tian, Shouceng
2020.
Enhanced erosion on sedimentary rock by adding abrasive nanoparticles in ultrasonic cavitation.
Applied Nanoscience,
Vol. 10,
Issue. 4,
p.
1319.
Bai, Lixin
Yan, Jiuchun
Zeng, Zhijie
and
Ma, Yuhang
2020.
Cavitation in thin liquid layer: A review.
Ultrasonics Sonochemistry,
Vol. 66,
Issue. ,
p.
105092.
Wang, Ziwei
Xue, Kun
and
Mi, Xiaocheng
2024.
Effect of shock impedance of mesoscale inclusions on the shock-to-detonation transition in liquid nitromethane.
Physics of Fluids,
Vol. 36,
Issue. 2,