The Thermal Decomposition of Triple-Base Propellants

被引:0
|
作者
M. Stanković
V. Kapor
S. Petrović
机构
[1] Military Technical Institute of the Yugoslav Army,
[2] Faculty of Technology and Metallurgy,undefined
来源
Journal of Thermal Analysis and Calorimetry | 1999年 / 56卷
关键词
ASTM method; Borchardt-Daniels method; double-base propellant; Freeman-Carroll method; kinetic parameters; Kissinger method; nitroguanidine; Rogers-Morris method; triple-base propellant;
D O I
暂无
中图分类号
学科分类号
摘要
The thermal decompositions of a double-base propellant (DB), five triple-base propellants (TB) and nitroguanidine (NGV) were examined. The kinetic parameters were evaluated using the ASTM, Kissinger, Rogers-Morris, Freeman-Carroll and Borchardt-Daniels methods. The values of the orders of some of the chemical reactions (n), like some values of activation energies (Ea), do not have any physical meaning, but they represent the manner of propellant decomposition and prove that the mechanism of the reaction changes during the decomposition process. As a result of this fact, differences appear in the evaluated kinetic parameters between various methods.
引用
收藏
页码:1383 / 1388
页数:5
相关论文
共 50 条
  • [41] Thermal decomposition of multiple-based nitramine propellants
    Li, Xinrui
    Zhao, Baochang
    Li, Li
    Yang, Dong
    Lu, Lude
    Kayaku Gakkaishi/Journal of the Japan Explosives Society, 2001, 62 (05): : 203 - 207
  • [42] Review of thermal decomposition and combustion properties of azide propellants
    Pang, Aimin
    Guti Huojian Jishu/Journal of Solid Rocket Technology, 1998, 21 (04): : 26 - 30
  • [43] The thermal behavior of RDX-base gun propellants
    Kong, YH
    Liu, ZR
    Yin, CM
    Jing, WW
    THEORY AND PRACTICE OF ENERGETIC MATERIALS, 1997, : 264 - 268
  • [44] Effects of Perforation and Grain Size on the Burning Rate of Triple Base Propellants
    Momenizadeh, Pandas H.
    THEORY AND PRACTICE OF ENERGETIC MATERIALS (VOL IX), PROCEEDINGS OF THE 2011 INTERNATIONAL AUTUMN SEMINAR ON PROPELLANTS, EXPLOSIVES AND PYROTECHNICS, 2011, : 572 - 578
  • [45] Study on Mechanical Property and Structure of Water Erosion Triple Base Propellants
    Sun, Junwei
    Zhang, Fuyang
    Du, Ping
    ADVANCED RESEARCH IN MATERIAL SCIENCE AND MECHANICAL ENGINEERING, PTS 1 AND 2, 2014, 446-447 : 1436 - 1440
  • [46] THERMAL REACTIVITY OF DOUBLE-BASE ROCKET PROPELLANTS
    PAIVERNEKER, VR
    KISHORE, K
    SUBHAS, CBV
    PROPELLANTS AND EXPLOSIVES, 1979, 4 (04): : 83 - 86
  • [47] Fast Scalar Multiplication Algorithm Using Constrained Triple-Base Number System and Its Applications
    Dou, Yunqi
    Weng, Jiang
    Ma, Chuangui
    Wei, Fushan
    2015 10TH INTERNATIONAL CONFERENCE ON BROADBAND AND WIRELESS COMPUTING, COMMUNICATION AND APPLICATIONS (BWCCA 2015), 2015, : 426 - 431
  • [48] Mechanism of the anisotropic nitroguanidine crystal arrangement on triple-base propellant failure by impact and strategy of structural enhancement
    Zhu, Yao
    Fu, You
    Wang, Xijin
    Chen, Qian
    Yang, Jing
    Xu, Bin
    Liu, Zhitao
    Chen, Feiyun
    Wei, Xiaoan
    Liao, Xin
    AIP ADVANCES, 2023, 13 (11)
  • [49] Efficient Septuple Formula for Elliptic Curve and Efficient Scalar Multiplication Using a Triple-Base Chain Representation
    Liu, Shuanggen
    Zhang, Lijuan
    IEEE ACCESS, 2021, 9 : 129512 - 129520
  • [50] Thermal decomposition kinetics and spectral analysis of mixed ester propellants
    Sun, Huiming
    Wang, Le
    Liu, Yitao
    Pan, Renming
    Zhou, Xia
    PROCESS SAFETY AND ENVIRONMENTAL PROTECTION, 2024, 190 : 512 - 520