Skip to main content
SpringerLink
Log in

Intense compression of a substance by means of accumulated energy from explosives

  • Published:
Journal of Applied Mechanics and Technical Physics Aims and scope

This is a preview of subscription content, log in via an institution to check access.

Access this article

Log in via an institution

Price excludes VAT (USA)
Tax calculation will be finalised during checkout.

Instant access to the full article PDF.

Institutional subscriptions

Literature cited

  1. K. P. Stanyukovich, Nonsteady-State Movement of a Solid tin Russian], Nauka, Moscow (1971).

    Google Scholar 

  2. L. V. Al'tshuler, “Use of shock waves in high-pressure physics,” Usp. Fiz. Nauk,85, No. 2 (1965).

  3. L. Brun, R. Cheret, and J. Vacellier, “Considérations sur les détonation fortes,” in: Comportment des milieux denses sous hautes pressions dynamiques: Symp. HDP, Paris (1978).

  4. J. Leygonie and J. G. Bergon, “Dispositifs générateurs de haute pressions dynamiques,” in: Behavior of dense media under high dynamic pressures: Symp, HDP, Paris (1967), New York (1968).

  5. K. Jach, “Propagation of cumulative shock waves in conical systems,” Doctor's Thesis, Military Acad. Techn., Warsaw (1977).

    Google Scholar 

  6. H. Derentowicz, M. Fruczek, S. Kaliski, et al., “Production of super-high loads of matter in conical explosion systems,” Proc. VIIth Internat. AIRAPT Conf., Le Creusot, France (1979).

  7. H. Derentowicz, S. Kaliski, and Z. Ziolkowski, “Generation of fusion neutrons in a deuterium filled cone by means of explosive implosion of a polyethylene shell. Part 1. Theoretical estimations,” J. Tech. Phys., Polish Acad. Sci.,18, No. 4 (1977).

  8. W. Gluchowski, S. Kaliski and R. Swierczynski, “Optimization of neutron yield in a conical system at explosion-induced compression,” J. Tech. Phys., Polish Acad. Sci.,20, No. 2 (1979).

  9. H. Derentowicz, S. Kaliski, et al., “Generation of thermonuclear fusion neutrons by means of a pure explosion. Part 2. Experimental results,” Bull. Acad. Polon. Sci., Ser. Sci. Techn.,25, No. 10 (1977).

  10. H. Derentowicz, W. Dybek, J. Wrobel, et al., “Experimental investigations of explosive biconical systems,” Intern. Report IPPLM N 1/IV (182), unpublished (1982).

  11. K. Berezanski, E. Burdziakowska, H. Derentowicz, et al., “A nanosecond system of initiation of explosive cumulative system for microfusion,” Intern. Report IPPLM N 2/81 (62), unpublished (1981).

  12. H. Derentowicz and S. Kaliski, “An experimental biconical system for explosion microfusion of plasma,” Bull. Acad. Polon. Sci., Sér. Sci. Techn.,27, No. 2 (1979).

  13. H. Derentowicz, L. Grygoruk, et al., “Experimental studies of biconical explosion-driven thermonuclear-fusion system,” J. Tech. Phys., Polish Acad. Sci.,22, No. 4 (1981).

  14. H. Derentowicz, L. Grygoruk, K. Jach, et al., “Experimental investigations of high pressure explosive biconical system,” Proc. VIIIth Internat. AIRAPT Conf., Uppsala, Sweden (1981).

  15. S. Kaliski, “Explosion-induced longitudinal-cylindrical compression of plasma,” J. Techn. Phys., Polish Acad. Sci.,20, No. 1 (1979).

  16. J. Bagrowski, H. Derentowicz, M. Fruczek, et al., “Explosive microfusion system with a preliminary heating of deuterium,” Intern. Report IPPLM N 9/81 (69), unpublished (1982).

  17. K. Jach and K. Gac, “The influence of radiation transport and heat conduction on the efficiency of the the reaction of synthesis in rapid liner D-T explosive systems for plasma compression,” J. Tech. Phys., Polish Acad. Sci.,25, No. 2 (1984).

  18. H. Derentowicz, K. Gac, et al., “Some possibilities of initiating an avalanche reaction of thermonuclear fusion in spherical explosive systems. Part 1. Single-liner systems,” J. Tech. Phys., Polish Acad. Sci.,25, No. 3–4 (1984); “Part 2, Two-liner systems,”26, No. 2 (1985).

  19. H. Derentowicz, W. Dybek, et al., “Generation of strong shock waves in deuterium in the explosive Voitenko generator,” J. de Phys. Colloque C8,45, Supplement to No. 11 (1984).

  20. A. S. Balchan and G. R. Cowan, “Method for accelerating flat plates to high velocity,” Rev. Sci. Instrum.,35, No. 8 (1964).

  21. V. I. Laptev and Yu. A. Trishin, “Increase in initial velocity and pressure with impact over an inhomogeneous barrier,” Zh. Prikl. Mekh. Tekh. Fiz., No. 6 (1974).

  22. G. R. Fowles, C. Leung, and R. Rabie, “Acceleration of flat plates by multiple staging,” Proc. VIth AIRAPT Conf., 1977,2, New York, London (1979).

  23. V. A. Ogarkov, N. P. Purygin, and S. V. Samoilov, “Simple model of layered systems for obtaining high body velocities,” in: Detonation. Critical Phenomena. Physicochemical Conversion in Shock Waves [in Russian], Chernogolovka (1978).

  24. J. Bagrowski, H. Derentowicz, et al., “Experimental verification of explosion-induced profiling of a plane shock wave through layer systems,” J. Techn. Phys., Polish Acad. Sci.,18, No. 3 (1977).

  25. H. Derentowicz and Z. Ziolkowski, “Measurement of parameters of convergent cylindrical shock waves by electrical methods in metal samples,” J. Tech. Phys., Polish Acad. Sci.,19, No. 2 (1978).

  26. J. Bagrowski, “Analysis of characteristics of single stage explosive systems of bodies acceleration to high velocity in a plane symmetry,” Intern. Report IPPLM N 6/82 (84), unpublished (1982).

  27. J. Bagrowski, M. Fruczek, and L. Grygoruk, “Experimental investigations of explosive driving of cylindrical metal liners in layer systems,” J. Tech. Phys., Polish Acad. Sci.,24, No. 9 (1983).

  28. M. Adamiec, J. Bagrowski, et al., “High-speed photography of explosion processes with use of a dye laser,” J. Tech. Phys., Polish Acad. Sci.,25, No. 3–4 (1984).

  29. J. Bagrowski, H. Derentowicz, and H. Luckner, “Experimental investigations of an explosive cylindrical multilayer system of metal liners accelerated to high velocities,” Proc. Xth AIRAPT Conf., Amsterdam Holland (1985), Physica139–140B (1986).

  30. R. Swierczyński, J. Tyl, and E. Wlodarczyk, “Layered single-stage driving system for plane liners,” J. Tech. Phys., Polish Acad. Sci.,26, No. 2 (1985).

  31. R. Swierczyński, J. Tyl, and E. Wlodarczyk, “Analysis of layered concentric liner driving systems,” J. Tech. Phys., Polish Acad. Sci.,27, No. 1–2 (1986).

  32. R. Swierczyński, and J. Tyl, “Analysis of layered concentric liner driving system with heavy concentrator of energy,” Intern. Report IPPLM N 1/85 (103), unpublished (1985).

Download references

Author information

Authors and Affiliations

  1. Warsaw

    H. Derentowicz

Authors
  1. H. Derentowicz
    View author publications

    You can also search for this author in PubMed Google Scholar

Additional information

Translated from Zhurnal Prikladnoi Mekhaniki i Tekhnicheskoi Fiziki, No. 1, pp. 23–35, January–February, 1989.

The author thanks the Organizing Committee of the Second Lavrent'ev series of lectures and the supervisors of the Kaliski Institute for making it possible to present this work, and also to K. Jach, R. Swierczynski, J. Bagrowski, and Z. Ziolkowski for help in its execution.

Rights and permissions

Reprints and permissions

About this article

Cite this article

Derentowicz, H. Intense compression of a substance by means of accumulated energy from explosives. J Appl Mech Tech Phys 30, 21–32 (1989). https://doi.org/10.1007/BF00860700

Download citation

  • Received:

  • Issue Date:

  • DOI: https://doi.org/10.1007/BF00860700

Keywords

Search

Navigation