Study of the Penetration of a Cylindrical Striker through an Ice Barrier

   The penetration of cylindrical strikers with a flat end through ice barriers on the normal to the front surface of the barriers. The possibility of using induction sections to fix the time strikers in the study of the penetration through a fresh ice barrier in the range of initial velocities from 800 to 1500 m/s. Diagrams of motion (depth versus time) and the size of the cavities have been experimentally obtained by pulsed radiography. According to the results of the tests and analysis of the results, the influence of the ice temperature on its strength, resistance coefficient, and the size of the cavity have been determined.

1. Shulson, E. M. The structure and Mechanical Behavior of Ice Journal of The Minerals, Metals & Materials Society (JOM ), 51, 1999, p. 21–27.

2. Erland M. Schulson, Paul Duval. Ductile behavior of polycrystalline ice: experimental data and physical processes. Cambridge University Press. February, 2010. P. 101–152.

3. Gol’dshteyn R. V. Mekhanika razrusheniya l’da i nekotoryye yeye prilozheniya. Problemy mashinostroyeniya i nadezhnosti mashin, 1990, № 5, pp. 81–88.

4. Gol’dshteyn R. V., Osipenko N. M. Voprosy mekhaniki razrusheniya l’da i ledyanogo pokrova pri analize ledovykh nagruzok. Vesti gazovoy nauki. № 3 (14). P. 104–113.

5. Orlov M. Yu., Orlova Yu. N. Issledovaniye protsessa vzryvnogo nagruzheniya l’da. Vestnik Tomskogo gosudarstvennogo universiteta. 2015. № 6 (38). P. 81–89.

6. Bogomolov G. N., Glazyrin V. P., Orlov M. Y. Research of ice destruction under dynamic loading. Part 1. Modeling explosive ice cover into account the temperature. MATEC Web of Conferences Сер. “International Youth Scientific Conference “Heat and Mass Transfer in the Thermal Control System of Technical and Technological Energy Equipment”, HMTTSC 2017” 2017. P. 01014.

7. Orlov M. Yu., Bogomolov G. N. Studying the behavior of ice under shock and explosive loads. Polar mechanics. 2016. No. 3. P. 192–202.

8. Orlov M. Yu. Investigation of the behavior of thick ice under shock loading. simulation of the interaction of a large projectile with ice on an aqueous substrate. Collection: Mechanics of composite materials and structures, complex and heterogeneous media. Proceedings of the 7th All-Russian Scientific Conference with international participation. I. F. Obraztsova and Yu. G. Yanovsky. 2017. P. 318–320.

9. Glazyrin V. P., Orlov Yu. N., Orlov M. Yu., Orlova Yu. N., Bogomolov G. N. Experimental and theoretical study of shock and explosive loading of ice. News of higher educational institutions. Physics. 2013. Vol. 56. No. 7–3. P. 38–40.

10. Orlov M. Yu., Orlova Yu. N., Bogomolov G. N. An experimental study of the processes of explosive loading of freshwater ice. Collection: Intelligent Energy Systems Proceedings of the IV International Youth Forum: in 3 volumes. Tomsk Polytechnic University. 2016. P. 102–105.

11. Golubyatnikov V. V., Orlov M. Yu. Exploring the behavior of ice cover during explosive loading. Collection: Mechanics of composite materials and structures, complex and heterogeneous media. Proceedings of the 6th All-Russian Scientific Conference with international participation. I. F. Obraztsova and Yu. G. Yanovsky: in 2 volumes. 2016. P. 218–227.

12. Glazyrin V. P., Orlov M. Yu., Orlov Yu. N., Sadokhin A. N., Bogomolov G. N. A comprehensive theoretical and experimental study of the behavior of polycrystalline ice under dynamic loads. Part 1. Experiments on shock-explosive loading of freshwater ice. Calculation of the process of explosive loading of the ice-vv-water system. Bulletin of the Amur State University named after Sholem Aleichem. 2013. No. 2 (13). P. 98–112.

13. Babkin A. V., Selivanov V. V. Applied mechanics of continuous media. Vol. 1: Fundamentals of continuum mechanics. Moscow, Publishing House of MSTU. N. E. Bauman, 2006, 376 pp.

14. Veldanov V. A., Daursky A. Yu., Karneychik A. S., Maximov M. A. Possibilities of modeling the penetration of bodies into soil environments. Engineering Journal: Science and Innovation, 2013, no. 9.

15. Veldanov V. A., Isaev A. L., Ladov S. V., Fedorov S. V. Penetration of a solid cylindrical body into a solid ice weakened by a hole. M., Defense technology. No. 11. 2002.