Zobrazeno 1 - 4
of 4
pro vyhledávání: '"L. V. Tochilina"'
Autor:
O. L. Krivonos, A A Nikulin, A. N. Razin, E. V. Shaporenko, E. D. Sen’kovskii, L. V. Tochilina, N. V. Nevmerzhitskii, E. A. Sotskov
Publikováno v:
Journal of Applied Mechanics and Technical Physics. 56:192-201
This work presents the results of experimental and numerical studies on the process of turbulent mixing ocurring at the contact boundaries of three-layer gas systems during the passage of a stationary shock wave with a Mach number M ≈ 1.3. The expe
Autor:
N. V. Nevmerzhitsky, V. A. Ustinenko, L. V. Tochilina, E. A. Sotskov, A. N. Rasin, E D Sen'kovsky, M. V. Bliznetsov
Publikováno v:
AIP Conference Proceedings.
The experimental technique and the results of the study into the turbulent mixing are presented. The turbulent mixing (TM) arises at Richtmyer‐Meshkov instability at the gas‐gas interface accelerated by a shock wave with Mach numbers up to 9. Hel
Autor:
M. V. Bliznetsov, V. I. Kozlov, E. A. Sotskov, A. K. Lychagin, N. V. Nevmerzhitsky, V. A. Ustinenko, L. V. Tochilina
Publikováno v:
AIP Conference Proceedings.
We present the results of the experimental study of viscosity effect on turbulent mixing development (TM) occurring at Raylegh‐Taylor instability at the boundary of a liquid layer accelerated by compressed gas. In the experiments dynamic viscosity
Autor:
E D Sen'kovsky, A. N. Razin, L. V. Tochilina, E A Sotskov, V. A. Ustinenko, O L Krivonos, N V Nevmerzhitsky
Publikováno v:
Physica Scripta. :014016
The results of our experimental investigation of the turbulent mixing occurring at a Richtmayer–Meshkov instability driven by a shock wave (SW) in gases at different Mach numbers (M) ranging from ≈1.4 to ≈9 are presented in this paper. The expe