Shock compression of an emulsion matrix at pressures up to 37 GPa

被引:0
|
作者
V. V. Sil’vestrov
A. S. Yunoshev
A. V. Plastinin
S. I. Rafeichik
机构
[1] Russian Academy of Sciences,Lavrent’ev Institute of Hydrodynamics, Siberian Branch
来源
Combustion, Explosion, and Shock Waves | 2014年 / 50卷
关键词
emulsion explosive matrix; Hugoniot; equation of state;
D O I
暂无
中图分类号
学科分类号
摘要
This paper presents an experimental study of the shock compression of an emulsion matrix based on an aqueous solution of ammonium and sodium nitrates at pressures up to 37 GPa, which is significantly higher than the calculated detonation pressure. The data obtained were used to determine the parameters of the Hayes equation of state and calculate the shock heating temperature of the matrix. At a pressure of more than 17 GPa, the input pressure profiles shows a rise associated with the chemical transformation of the emulsion.
引用
收藏
页码:470 / 476
页数:6
相关论文
共 50 条
  • [1] Shock compression of an emulsion matrix at pressures up to 37 GPa
    Sil'vestrov, V. V.
    Yunoshev, A. S.
    Plastinin, A. V.
    Rafeichik, S. I.
    [J]. COMBUSTION EXPLOSION AND SHOCK WAVES, 2014, 50 (04) : 470 - 476
  • [2] Shock compression of low initial density quartz at pressures up to 100 GPa
    Vildanov, VG
    Gorshkov, MM
    Slobodenjukov, VM
    Rushkovan, EH
    [J]. SHOCK COMPRESSION OF CONDENSED MATTER - 1995, 1996, 370 : 121 - 124
  • [3] Shock compression of diamonds in silicon carbide matrix up to 110 GPa
    Li, Yuanyuan
    Cao, Xiuxia
    Yu, Yin
    Li, Xuhai
    Zhang, Lu
    Zhu, Wenjun
    Zhou, Xianming
    He, Hongliang
    Meng, Chuanmin
    He, Duanwei
    [J]. JOURNAL OF APPLIED PHYSICS, 2020, 128 (24)
  • [4] Shock compression of deuterium near 100 GPa pressures
    Nellis, WJ
    [J]. PHYSICAL REVIEW LETTERS, 2002, 89 (16)
  • [5] Shock Compression of Coesite up to 950 GPa
    Feng, Xiaokang
    Katagiri, Kento
    Qu, Jia
    Nonaka, Keita
    Sun, Liang
    Zhu, Pinwen
    Ozaki, Norimasa
    Sano, Takayoshi
    Sekine, Toshimori
    Yang, Wenge
    [J]. Geophysical Research Letters, 2024, 51 (24)
  • [6] Shock-wave compression of hydrogen to pressures of 65 GPa
    R. F. Trunin
    G. V. Boriskov
    S. I. Belov
    A. I. Bykov
    R. I. Il’kaev
    G. V. Simakov
    V. D. Urlin
    A. N. Shuikin
    [J]. Journal of Experimental and Theoretical Physics Letters, 2005, 82 : 284 - 286
  • [7] Shock-wave compression of hydrogen to pressures of 65 GPa
    Trunin, RF
    Boriskov, GV
    Belov, SI
    Bykov, AI
    Il'kaev, RI
    Simakov, GV
    Urlin, VD
    Shuikin, AN
    [J]. JETP LETTERS, 2005, 82 (05) : 284 - 286
  • [8] Shock compression of liquid deuterium up to 109 GPa
    Boriskov, GV
    Bykov, AI
    Il'kaev, RI
    Selemir, VD
    Simakov, GV
    Trunin, RF
    Urlin, VD
    Shuikin, AN
    Nellis, WJ
    [J]. PHYSICAL REVIEW B, 2005, 71 (09)
  • [9] Allotropes of carbon shock synthesized at pressures up to 15GPa
    Yamada, K
    Tanabe, Y
    Sawaoka, AB
    [J]. PHILOSOPHICAL MAGAZINE A-PHYSICS OF CONDENSED MATTER STRUCTURE DEFECTS AND MECHANICAL PROPERTIES, 2000, 80 (08): : 1811 - 1828
  • [10] SHOCK COMPRESSION AND FLASH HEATING OF GRAPHITE METAL MIXTURES AT TEMPERATURES UP TO 3200-K AND PRESSURES UP TO 25-GPA
    KLEIMAN, J
    HEIMANN, RB
    HAWKEN, D
    SALANSKY, NM
    [J]. JOURNAL OF APPLIED PHYSICS, 1984, 56 (05) : 1440 - 1454
12345