Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
Brennen, Christopher
1969.
A numerical solution of axisymmetric cavity flows.
Journal of Fluid Mechanics,
Vol. 37,
Issue. 4,
p.
671.
Brennen, Christopher
1970.
Cavity surface wave patterns and general appearance.
Journal of Fluid Mechanics,
Vol. 44,
Issue. 1,
p.
33.
Kato, Hiroharu
Konno, Akihisa
Maeda, Masatsugu
and
Yamaguchi, Hajime
1996.
Possibility of Quantitative Prediction of Cavitation Erosion Without Model Test.
Journal of Fluids Engineering,
Vol. 118,
Issue. 3,
p.
582.
Yu, Po-Wen
and
Ceccio, Steven L.
1997.
Diffusion Induced Bubble Populations Downstream of a Partial Cavity.
Journal of Fluids Engineering,
Vol. 119,
Issue. 4,
p.
782.
Cameron, Peter J. K.
Rogers, Peter H.
Doane, John W.
and
Gifford, David H.
2011.
An Experiment for the Study of Free-Flying Supercavitating Projectiles.
Journal of Fluids Engineering,
Vol. 133,
Issue. 2,
Kim, Hyoung-Tae
and
Lee, Hyun-Bae
2014.
A Numerical Analysis of Gravity and Free Surface Effects on a Two-Dimensional Supercavitating Flow.
Journal of the Society of Naval Architects of Korea,
Vol. 51,
Issue. 5,
p.
435.
Ito, Y
Tsunoda, A
and
Nagasaki, T
2015.
Experimental comparison of backflow-vortex cavitation on pump inducer between cryogen and water.
Journal of Physics: Conference Series,
Vol. 656,
Issue. ,
p.
012063.
Pearce, Bryce W
and
Brandner, Paul A
2015.
Numerical analysis of basic base-ventilated supercavitating hydrofoil sections.
Proceedings of the Institution of Mechanical Engineers, Part M: Journal of Engineering for the Maritime Environment,
Vol. 229,
Issue. 3,
p.
291.
Ito, Yutaka
Tsunoda, Atsuhiro
Kurishita, Yuto
Kitano, Satoshi
and
Nagasaki, Takao
2016.
Experimental Visualization of Cryogenic Backflow Vortex Cavitation with Thermodynamic Effects.
Journal of Propulsion and Power,
Vol. 32,
Issue. 1,
p.
71.
Lee, In-ho
Mäkiharju, Simo A.
Ganesh, Harish
and
Ceccio, Steven L.
2016.
Scaling of Gas Diffusion Into Limited Partial Cavities.
Journal of Fluids Engineering,
Vol. 138,
Issue. 5,
Karn, Ashish
Arndt, Roger E. A.
and
Hong, Jiarong
2016.
An experimental investigation into supercavity closure mechanisms.
Journal of Fluid Mechanics,
Vol. 789,
Issue. ,
p.
259.
Karn, Ashish
and
Chawdhary, Saurabh
2018.
On the synergistic interrelation between supercavity formation through vaporous and ventilated routes.
International Journal of Multiphase Flow,
Vol. 104,
Issue. ,
p.
1.
Chung, Jaeho
and
Cho, Yeunwoo
2018.
Ventilated supercavitation around a moving body in a still fluid: observation and drag measurement.
Journal of Fluid Mechanics,
Vol. 854,
Issue. ,
p.
367.
Wu, Yue
Liu, Yun
Shao, Siyao
and
Hong, Jiarong
2019.
On the internal flow of a ventilated supercavity.
Journal of Fluid Mechanics,
Vol. 862,
Issue. ,
p.
1135.
Kobayashi, Keisuke
Katayama, Yusuke
Watanabe, Satoshi
and
Tsuda, Shin-ichi
2021.
Experimental Investigation on Cavity Pressure Inside Sheet Cavitation.
Journal of Fluids Engineering,
Vol. 143,
Issue. 12,
Yu, DeLei
Wei, YingJie
Wang, Cong
Lu, JiaXing
Li, YiGuo
and
Zhang, WenHui
2022.
Experimental investigation of two ventilated cavities with effect of Froude number and gas entrainment.
Ocean Engineering,
Vol. 261,
Issue. ,
p.
112109.
Nanda, Swaraj
Westerweel, Jerry
van Terwisga, Tom
and
Elsinga, Gerrit
2022.
Mechanisms for diffusion-driven growth of cavitating wing-tip vortices.
International Journal of Multiphase Flow,
Vol. 156,
Issue. ,
p.
104146.
Pham, Van-Duyen
Hong, Ji-Woo
and
Ahn, Byoung-Kwon
2024.
Experimental and numerical analysis of the physical characteristics of natural and ventilated supercavitating flows.
Physics of Fluids,
Vol. 36,
Issue. 2,