Pulsed Electrical Breakdown of Energetic Composite Condensed Systems

被引:0
|
作者
D. N. Sadovnichii
Yu. M. Milekhin
S. A. Lopatkin
V. F. Vazhov
S. A. Gusev
E. A. Butenko
机构
[1] Soyuz Federal Center of Dual-Use Technologies,Institute of High Voltage
[2] Tomsk Polytechnical University,undefined
来源
Combustion, Explosion, and Shock Waves | 2010年 / 46卷
关键词
Key words; energetic condensed system; aluminum; diethylene glycol dinitrate; triethylene glycol dinitrate; cyclotetramethylenetetranitramine; electrical breakdown; combustion;
D O I
暂无
中图分类号
学科分类号
摘要
An experimental study was made of 0.2 fusec pulsed electrical breakdown of energetic composite systems containing a polymer binder capable of self-sustained combustion. It is shown that electrical breakdown of samples 2–4 mm thick does not lead to ignition of the entire sample but can cause severe damage to it. The effect of dispersed fillers on the electric strength and fracture of energetic condensed systems in comparison with nonflammable polymer compositions is discussed.
引用
收藏
页码:464 / 471
页数:7
相关论文
共 50 条
  • [1] Pulsed Electrical Breakdown of Energetic Composite Condensed Systems
    Sadovnichii, D. N.
    Milekhin, Yu. M.
    Lopatkin, S. A.
    Vazhov, V. F.
    Gusev, S. A.
    Butenko, E. A.
    COMBUSTION EXPLOSION AND SHOCK WAVES, 2010, 46 (04) : 464 - 471
  • [2] PROGRESS IN THE UNDERSTANDING OF ELECTRICAL BREAKDOWN IN CONDENSED MATTER
    FORSTER, EO
    JOURNAL OF PHYSICS D-APPLIED PHYSICS, 1990, 23 (12) : 1506 - 1514
  • [3] Combustion Hotspots of Energetic Condensed Systems
    Mikhailov, Yu. M.
    Kalmykov, Yu. B.
    Aleshin, V. V.
    COMBUSTION EXPLOSION AND SHOCK WAVES, 2019, 55 (06) : 661 - 670
  • [4] ELECTRICAL BREAKDOWN IN BEAMS OF CONDENSED HYDROGEN AND CONDENSED NITROGEN IN HIGH VACUUM
    BECKER, EW
    KLINGELHOFER, R
    JOURNAL OF NUCLEAR ENERGY PART C-PLASMA PHYSICS ACCELERATORS THERMONUCLEAR RESEARCH, 1966, 8 (4PC): : 413 - +
  • [5] Combustion Hotspots of Energetic Condensed Systems
    Yu. M. Mikhailov
    Yu. B. Kalmykov
    V. V. Aleshin
    Combustion, Explosion, and Shock Waves, 2019, 55 : 661 - 670
  • [6] Agglomeration of the condensed phase of energetic condensed systems containing modified aluminum
    E. A. Lebedeva
    I. L. Tutubalina
    V. A. Val’tsifer
    V. N. Strel’nikov
    S. A. Astaf’eva
    I. V. Beketov
    Combustion, Explosion, and Shock Waves, 2012, 48 : 694 - 698
  • [7] Agglomeration of the condensed phase of energetic condensed systems containing modified aluminum
    Lebedeva, E. A.
    Tutubalina, I. L.
    Val'tsifer, V. A.
    Strel'nikov, V. N.
    Astaf'eva, S. A.
    Beketov, I. V.
    COMBUSTION EXPLOSION AND SHOCK WAVES, 2012, 48 (06) : 694 - 698
  • [8] Physicochemical characteristics of the components of energetic condensed systems
    Frolov, Yu. V.
    Pivkina, A. N.
    Zav'yalov, S. A.
    Murav'ev, N. V.
    Skryleva, E. A.
    Monogarov, K. A.
    RUSSIAN JOURNAL OF PHYSICAL CHEMISTRY B, 2010, 4 (06) : 916 - 922
  • [9] Physicochemical characteristics of the components of energetic condensed systems
    Yu. V. Frolov
    A. N. Pivkina
    S. A. Zav’yalov
    N. V. Murav’ev
    E. A. Skryleva
    K. A. Monogarov
    Russian Journal of Physical Chemistry B, 2010, 4 : 916 - 922
  • [10] ENERGETIC CHARACTERISTICS OF PULSED MHD SYSTEMS
    BURENIN, YA
    SHVETSOV, GA
    COMBUSTION EXPLOSION AND SHOCK WAVES, 1975, 11 (03) : 367 - 370
12345