Detonation velocity and pressure of non-ideal explosive ANFO

被引:0
作者
Miyake, A [1 ]
Takahara, K [1 ]
Ogawa, T [1 ]
Ogata, Y [1 ]
Arai, H [1 ]
Wada, Y [1 ]
机构
[1] Yokohama Natl Univ, Dept Safety Engn, Yokohama, Kanagawa 2408501, Japan
来源
IMPACT ENGINEERING AND APPLICATION, VOLS I AND II | 2001年
关键词
non-ideal detonation; detonation velocity; detonation pressure; ANFO; CHEETAH code;
D O I
暂无
中图分类号
TH [机械、仪表工业];
学科分类号
0802 ;
摘要
In order to obtain a better understanding of the non-ideal detonation characteristics of ANFO explosive (ammonium nitrate and fuel oil mixture), detonation velocity and pressure were measured in steel tubes simultaneously with ionization probes and piezo-resistive manganin gauges. Observed detonation velocity and peak pressure were compared with the theoretically predicted values made by the thermohydrodynamic CHEETAH code. Experimentally observed detonation parameters were determined as 60 to 72 % of the calculated detonation velocity and 42 to 58 % of the calculated detonation pressure. Furthermore the fraction reacted at the detonation front was estimated as 57 to 73 % of the ideal detonation calculated values.
引用
收藏
页码:503 / 508
页数:4
相关论文
共 50 条
[41]   Microstructure effects on the detonation velocity of a heterogeneous high-explosive [J].
Bellitto, Victor J. ;
Melnik, Mikhail I. ;
Sherlock, Mary H. ;
Chang, Joseph C. ;
O'Connor, John H. ;
Mackey, Joseph A. .
JOURNAL OF ENERGETIC MATERIALS, 2018, 36 (04) :485-492
[42]   Detonation Velocity and Detonation Pressure of RDX Mixtures with Sodium Chloride [J].
Akinin, N., I ;
Babaitsev, I., V .
THEORY AND PRACTICE OF ENERGETIC MATERIALS, VOL VIII, 2009, :218-221
[43]   Detonation Pressure of an Emulsion Explosive Sensitized by Polymer Microballoons [J].
Yunoshev, A. S. ;
Bordzilovskii, S. A. ;
Voronin, M. S. ;
Karakhanov, S. M. ;
Makarov, S. N. ;
Plastinin, A. V. .
COMBUSTION EXPLOSION AND SHOCK WAVES, 2019, 55 (04) :426-433
[44]   Determination of performance of non-ideal aluminized explosives [J].
Keshavarz, Mohammad Hossein ;
Mofrad, Reza Teimuri ;
Poor, Karim Esmail ;
Shokrollahi, Arash ;
Zali, Abbas ;
Yousefi, Mohammad Hassan .
JOURNAL OF HAZARDOUS MATERIALS, 2006, 137 (01) :83-87
[45]   Detonation Pressure of an Emulsion Explosive Sensitized by Polymer Microballoons [J].
A. S. Yunoshev ;
S. A. Bordzilovskii ;
M. S. Voronin ;
S. M. Karakhanov ;
S. N. Makarov ;
A. V. Plastinin .
Combustion, Explosion, and Shock Waves, 2019, 55 :426-433
[46]   The natural upper limit of the ideal detonation velocity of the condensed explosives [J].
Novikov, S. S. .
DOKLADY CHEMISTRY, 2009, 425 :57-59
[47]   The natural upper limit of the ideal detonation velocity of the condensed explosives [J].
S. S. Novikov .
Doklady Chemistry, 2009, 425 :57-59
[48]   Detonation velocity and pressure of ammonium nitrate and activated carbon mixtures [J].
Miyake, Atsumi ;
Echigoya, Hiroshi ;
Kobayashi, Hidefurni ;
Kato, Katsurni ;
Kubota, Shiro ;
Wada, Yuji ;
Ogata, Yuji ;
Ogawa, Terushige .
EXPLOSION, SHOCK WAVE AND HYPERVELOCITY PHENOMENA IN MATERIALS II, 2008, 566 :107-+
[49]   Prediction of Detonation Pressure and Velocity of Explosives with Micrometer Aluminum Powders [J].
Zhang, Qi ;
Chang, Yan .
CENTRAL EUROPEAN JOURNAL OF ENERGETIC MATERIALS, 2012, 9 (01) :77-86
[50]   Detonation Process as a Chain Branching Reaction-Calculation of Detonation Velocity and Detonation Pressure in Condensed State at Theoretical Density [J].
Pozdnyakov, A. V. .
THEORY AND PRACTICE OF ENERGETIC MATERIALS (VOL IX), PROCEEDINGS OF THE 2011 INTERNATIONAL AUTUMN SEMINAR ON PROPELLANTS, EXPLOSIVES AND PYROTECHNICS, 2011, :423-427
12345