Investigation of isentrope for detonation products of TATB-based composition

被引:0
|
作者
Aminov, YA [1 ]
Gorshkov, MM [1 ]
Zaikin, VT [1 ]
Kovalenko, GV [1 ]
Nikitenko, YR [1 ]
Rykovanov, GN [1 ]
机构
[1] Russian Fed Nucl Ctr, VNIITF, Snezhinsk 456770, Russia
来源
SHOCK COMPRESSION OF CONDENSED MATTER-2001, PTS 1 AND 2, PROCEEDINGS | 2002年 / 620卷
关键词
D O I
暂无
中图分类号
TH7 [仪器、仪表];
学科分类号
0804 ; 080401 ; 081102 ;
摘要
The modified impedance matching method was used for investigation of isentropic expansion of the detonation products of plasticized TATB-based composition. Experimental installation consists of flat aluminum flyer plate, aluminum "shield", the sample of explosive and inert barrier. The thickness of explosive sample is 15 mm. It was used 14 substances with various densities. Measured values of the shock wave velocity in the barrier were used for determination of particle velocity and pressure. Obtained results are in agreement with simulation and with experimental data for similar composition T-2.
引用
收藏
页码:875 / 877
页数:3
相关论文
共 50 条
  • [1] Deceleration of Detonation Products of a TATB-Based High Explosive
    Yu. A. Aminov
    M. M. Gorshkov
    V. T. Zaikin
    G. V. Kovalenko
    Yu. R. Nikitenko
    G. N. Rykovanov
    Combustion, Explosion and Shock Waves, 2002, 38 : 235 - 238
  • [2] Deceleration of detonation products of a TATB-based high explosive
    Aminov, YA
    Gorshkov, MM
    Zaikin, VT
    Kovalenko, GV
    Nikitenko, YR
    Rykovanov, GN
    COMBUSTION EXPLOSION AND SHOCK WAVES, 2002, 38 (02) : 235 - 238
  • [3] Modified detonation macrokinetics model of a tatb-based explosive
    Yu. A. Aminov
    A. V. Vershinin
    N. S. Es’kov
    O. V. Kostitsyn
    G. N. Rykovanov
    V. A. Sibilev
    M. A. Strizhenok
    Combustion, Explosion and Shock Waves, 1997, 33 : 77 - 80
  • [4] Modified detonation macrokinetics model of a TATB-based explosive
    Aminov, YA
    Vershinin, AV
    Eskov, NS
    Kostitsyn, OV
    Rykovanov, GN
    Sibilev, VA
    Strizhenok, MA
    COMBUSTION EXPLOSION AND SHOCK WAVES, 1997, 33 (01) : 77 - 80
  • [5] Electrical conductivity distribution during detonation of a TATB-based explosive
    N. P. Satonkina
    I. A. Rubtsov
    Technical Physics, 2016, 61 : 142 - 145
  • [6] Electrical Conductivity Distribution during Detonation of a TATB-Based Explosive
    Satonkina, N. P.
    Rubtsov, I. A.
    TECHNICAL PHYSICS, 2016, 61 (01) : 142 - 145
  • [7] Influence of initial density on detonation propagation in a TATB-based high explosive
    Anderson, Eric K.
    Short, Mark
    Voelkel, Stephen J.
    Montoya, Gabriel A.
    Chicas, Ritchie I.
    Chiquete, Carlos
    COMBUSTION AND FLAME, 2025, 273
  • [8] Influences of microstructure on detonation-spreading performances of TATB-based explosives
    Li, Zhi-Peng
    Zeng, Gui-Yu
    Liu, Lan
    Jiang, Zhi-Hai
    Qiao, Zhi-Qiang
    Huang, Yi-Min
    Baozha Yu Chongji/Explosion and Shock Waves, 2009, 29 (06): : 665 - 668
  • [9] Computational and Experimental Study of Detonation Propagation in TATB-Based Cylindrical Charges
    Erastov, A. V.
    Zmushko, V. V.
    Zmushko, T. I.
    Panov, K. N.
    COMBUSTION EXPLOSION AND SHOCK WAVES, 2024, 60 (02) : 238 - 246
  • [10] Corner performance of detonation waves in HMX-based and TATB-based PBX explosives
    Guo, Xiang-Li
    Han, Yong
    Lu, Xiao-Jun
    Li, Zhi-Peng
    Hanneng Cailiao/Chinese Journal of Energetic Materials, 2015, 23 (06): : 522 - 526
12345