Consideration is given to conditions ensuring stable high-velocity motion of supercavitating kinetic strikers in water. To investigate the stressed-strained state and a possible destruction of solid bodies during the motion in water and in interaction with underwater barriers of various types, the authors carry out mathematical modeling based on a unified methodological approach of the continuum mechanics. The range of the velocities under study is 500–1590 m/s. Results of the group start of supercavitating strikers are given.
Article PDF
Similar content being viewed by others
Avoid common mistakes on your manuscript.
References
Marshall P. Tulin, Fifty years of supercavitating flow research in the United States: Personal Recollections, Prikl. Gidromekh., 2 (74), No. 3, 100−107 (2000).
Yu. N. Savchenko and A. N. Zverkhovskii, Procedure for conducting experiments on high-velocity motion of inertial models in water in a supercavitation regime, Prikl. Gidromekh., 11, No. 4, 69−75 (2009).
A. N. Ishchenko, S. A. Afanas′eva, V. V. Burkin, et al., Theoretical and experimental analysis of the high-velocity interaction of solid bodies in water, J. Eng. Phys. Thermophys., 87, No. 2, 399−408 (2014).
A. N. Ishchenko, R. N. Akinshin, S. A. Afanas′eva, et al., High-velocity motion of supercavitating bodies in water and their interaction with underwater barriers, Fundam. Prikl. Gidrofiz., 8, No. 4, 5−10 (2015).
A. N. Ishchenko, S. A. Afanas′eva, N. N. Belov, et al., Experimental and mathematical modeling of high-velocity collision of a conical striker with various barriers, J. Eng. Phys. Thermophys., 90, No. 4, 1018−1024 (2017).
N. Fomin, W. Merzkirch, D. Vitkin, and H. Wintrich, Visualization of turbulence anisotropy by single exposure speckle photography, Exp. Fluids, 20, 476−479 (1996).
D. Vitkin, W. Merzkirch, and N. Fomin, Quantitative visualization of the change of turbulence structure caused by a normal shock wave, J. Vis., 1, No. 1, 29−35 (1998).
G. B. Chernyak and K. B. Povarova, Tungsten in Service Ammunition [in Russian], GNTs RF FGUP "TsNIIKhM," Moscow (2014).
O. Anderson, P. Lundberg, A. Helte, and P. Magnusson, Critical impact velocity of a cemented carbide projectile penetration a water target, Proc. 26th Int. Symp. on Ballistics, Miami, Fl (2011), pp. 1709–1718.
V. A. Burakov, V. V. Burkin, A. N. Ishchenko, et al., Experimental Ballistics Complex, Pending Patent Application No. 2015113676 of 13.04.2015. Federal Service for Intellectual Property, Patents, and Trademarks.
A. N. Ishchenko, R. N. Akinshin, S. A. Afanas′eva, et al., Hydroballistics Complex for Investigation of the Capabilities of Underwater Kinetic Weapon. Fundamental Science — To the Navy. Vol. 2. Proc. Roundtable Discussion within the framework of the VII Navy Salon, Tekhnosfera, Moscow (2016), pp. 214−232.
L. I. Sedov, Mechanics of a Continuous Medium [in Russian], Vols. 1 and 2, Nauka, Moscow (1973).
M. V. Khabibullin and S. A. Afanas′eva, Calculation of Phenomena Occurring in Condensed Media as a Result of the Action on Them of Intense Pulses in the Axisymmetric Formulation, Federal Service for Intellectual Property, Patents, and Trademarks, Certificate Acknowledging Registration of Computer Program No. 2012617301, Moscow, 14.08.2012.
N. T. Yugov, N. N. Belov, and A. A. Yugov, Calculation of Adiabatic Nonstandard Flows in a Three-Dimensional Formulation (RANET-3). Package of Computer Programs. Federal Service for Intellectual Property, Patents, and Trademarks. Certificate of State Registration of Computer Programs No. 2010611042, Moscow (2010).
Meter of Velocity in the DDS-6000 Barrel: A Passport [in Russian], Tais, Moscow (2010).
V. V. Burkin, A. A. D′yachkovskii, A. L. Egorov, et al., Muzzle Velocity Sensor, Patent No. 161396. Application RU 2015127042, Moscow, 06.07.2015. Federal Service for Intellectual Property, Patents, and Trademarks.
Author information
Authors and Affiliations
Corresponding author
Additional information
Translated from Inzhenerno-Fizicheskii Zhurnal, Vol. 91, No. 3, pp. 701–708, May–June, 2018.
Rights and permissions
About this article
Cite this article
Burkin, V.V., Akinshin, R.N., Afanas’eva, S.A. et al. Features of High-Velocity Penetration and Motion of Supercavitating Kinetic Strikers in Water. J Eng Phys Thermophy 91, 655–662 (2018). https://doi.org/10.1007/s10891-018-1787-y
Received:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10891-018-1787-y