«上一篇/Previous Article|本期目录/Table of Contents|下一篇/Next Article»

j.issn.1001-8352.2013.06.011]
点击复制

热分解动力学在含能材料中的应用()

分享到：

《爆破器材》[ISSN:1001-8352/CN:32-1163/TJ]

卷:: 42
期数:: 2013年06

页码:: 52-56

栏目:

出版日期:: 2013-12-20

文章信息/Info

Title:: Application of Thermal Decomposition Kinetics in Energetic Materials

文章编号:: 4653

作者:: 张涛; 陈明华; 贾昊楠; 贾晓彪; 常文平; 陈永康; 军械工程学院军械技术研究所（河北石家庄,050000）

Author(s):: ZHANG Tao; CHEN Minghua; JIA Haonan; JIA Xiaobiao; CHANG Wenping; CHEN Yongkang; Ordnance Institute of Technology, Ordnance Engineering College (Hebei Shijiazhuang, 050000)

关键词:: 含能材料; 热分解动力学; 反应机理; 动力学补偿效应; 寿命预测

Keywords:: energetic materials; thermal decomposition kinetics; reaction mechanism; kinetic compensation effect; prediction of service life

分类号:: TQ560.7

DOI:: 10.3969/j.issn.1001-8352.2013.06.011

文献标志码:: A

摘要:: 文章主要介绍了热分解动力学在含能材料中的重要性，列举了热分解动力学的主要分析方法及几种常用的反应机理，并对其进行简要分析。热分析技术具有快捷简便、准确度高以及适用范围广的特点，在含能材料的热分解动力学中发挥重要作用。热分解动力学广泛应用于含能材料的动力学参数的求解、反应机理的推断以及动力学补偿效应的确定，为其有效使用寿命的预测以及安全性能的评定等提供科学依据。同时，热分析技术的自身完善以及与其他技术的联机使用将促进热分解动力学的不断发展。

Abstract:: The importance of thermal decomposition kinetics in energetic materials was introduced. The main analysis methods of thermal decomposition kinetics and several kinds of reaction mechanism were enumerated and analyzed. Because thermal analysis technology has many advantages including simple and quick operation, high accuracy and extensive application, it plays an important role in the thermal decomposition kinetics of energetic materials. Thermal decomposition kinetic is widely applied in the obtaining of kinetic parameters, the inference of reaction mechanism and kinetic compensation effect for energetic materials. It provides scientific basis for the prediction of service life and evaluation of safety performance of energetic material. Meanwhile, selfimprovement of thermal analysis techniques and combination with other laboratory instruments will promote the development of thermal analysis kinetics.

参考文献/References:

［1］Flynn J H. Thermal analysis kineticspast, present and future［J］. Thermochimica Acta, 1992, 203(1): 519-526.
［2］Vyazovkin S, Wight C A. Isothermal and nonisothermal kinetics of thermally stimulated reactions of solids［J］. Intemational Reviews in Physical Chemistry, 1998, 17(3): 407-433.
［3］范芸珠, 曹发海. 硫酸铵热分解反应动力学研究［J］. 高校化学工程学报, 2011, 25(2): 341-346.
Fan Yunzhu, Cao Fahai. Thermal decomposition kinetics of ammonium sulfate［J］. Journal of Chemical Engineering of Chinese Universities, 2011, 25(2): 341-346.
［4］周华, 王强, 陈志雄,等. 神华煤热解特性和非等温动力学研究［J］. 煤化工, 2010, 38(2): 27-31.
Zhou Hua, Wang Qiang, Chen Zhixiong, et al. Pyrolysis characters and the nonisothermal kinetics of shenhua coal［J］. Coal Chemical Industry, 2010, 38(2): 27-31.
［5］Ptácek P, oukal F, Opravil T, et al. The kinetic analysis of the thermal decomposition of kaolinite by DTG technique［J］. Powder Technology, 2011, 208(1):20-25.
［6］Brown M E, Brown R E. Kinetic aspects of the thermal stability of ionic solids［J］. Thermochimica Acta, 2000,357-358: 133-140.
［7］刘子如. 含能材料热分析［M］. 北京:国防工业出版社, 2008.
［8］胡荣祖, 高胜利, 赵凤起,等. 热分析动力学［M］. 2版.北京:科学出版社, 2008.
［9］Ozawa T. A new method of analyzing thermogravimetric data［J］. Bulletin of the Chemical Society of Japan, 1965, 38(1): 1881-1886.
［10］Kissinger H E. Reaction kinetics in differential thermal analysis［J］. Analytical Chemistry, 1957, 29(11): 1702-1706. 
［11］Coats A W, Redfern J P. Kinetic parameters from thermogravimetric data［J］. Nature, 1964(201): 68-69.
［12］仪建华, 徐司雨, 马晓东,等. 太根发射药的非等温热分解反应动力学［J］. 火炸药学报, 2007, 30(4): 76-80.
Yi Jianhua, Xu Siyu, Ma Xiaodong, et al. Non isothermal thermal decomposition reaction kinetics of TEGDN gun propellant［J］. Chinese Journal of Explosives & Propellants, 2007, 30(4): 76-80.
［13］罗宁, 李晓杰, 王小红,等. 几种乳化炸药的热分解动力学行为［J］. 含能材料, 2009, 17(4): 463-466. 
Luo Ning, Li Xiaojie, Wang Xiaohong, et al. Thermal decomposition kinetics behavior of emulsion explosives［J］. Chinese Journal of Energetic Materials, 2009, 17(4): 463-466.
［14］高大元, 何松伟, 沈永兴,等. GI-920炸药的热分解动力学研究［J］. 含能材料, 2008, 16(1): 1-4.
Gao Dayuan, He Songwei, Shen Yongxing, et al. Thermal decomposition kinetics of GI-920 explosive［J］. Chinese Journal of Energetic Materials, 2008, 16(1): 1-4.
［15］Ozawa T. Estimation of activation energy by isoconversion methods ［J］. Thermochimica Acta, 1992, 203(1): 159-165.
［16］Akahira T,Sunose T. Method of determining activation deterioration constant of electrical insulating materials［J］. Res. Rep. Chiba Inst. Technol., 1971(16): 22-23.
［17］李艳春. 热分解动力学在含能材料中的应用［D］. 南京：南京理工大学, 2010.
Li Yanchun. The application of thermal analysis kinetics on energetic materials［D］. Nanjing:Nanjing University of Science & Technology, 2010.
［18］Zivkovic Z D，Dobovisek B . Determination of reaction kinetics based on a part of a differential thermal analysis or thermogravimetric curves［J］. Thermochimica Acta, 1979, 32(1-2): 205-211.
［19］Agrawal R K.A new equation for modeling nonisothermal reactions［J］. Chemistry Analysis, 1987, 32(1): 149-156.
［20］Freeman E S, Carroll B. The application of thermoanalytical techniques to reaction kinetics: the thermogravimetric evaluation of the kinetics of the decomposition of calcium oxalate monohydrate［J］.The Journal of Physical Chemistry, 1958, 62(4): 394-397.
［21］Friedman H L. Kinetics of thermal degradation of charforming plastics from thermograximetry. Application to a phenolic plastic. Journal of Polymer Science, Part C, 1964, 6(1): 183-195.
［22］Starink M J. A new method for the derivation of activation analysis from experiments performed at constant heating rate［J］. Thermochimica Acta, 1996, 288(12): 97-104. 
［23］David A,Anderson,Freeman E S.The kinetics of the thermal degradation of polystyrene and polyethylene［J］. Journal of Polymer Science, 1961, 54(159): 253-260.
［24］Popescu C. Integral method to analyze the kinetics of heterogeneous reactions under nonisothermal conditions a variant on the OzawaFlynnWall method［J］. Thermochimica Acta, 1996, 285(2): 309-323.
［25］Criado J M. Kinetic analysis of DTA data from master curves［J］. Thermochimica Acta, 1978, 24(1): 186-198.
［26］宁斌科，杨正权，刘蓉,等. 高氮量硝化棉的脱硝反应动力学研究［J］. 火炸药学报, 2000, 23(1): 65-67.
Ning Binke, Yang Zhengquan, Liu Rong, et al. A study on the denitration kinetics of highly nitrated nitrocellulose［J］. Chinese Journal of Explosives & Propellant, 2000, 23(1): 65-67.
［27］亓延军，崔嵛，张和平,等. 膨胀聚苯乙烯热分解动力学分析和寿命预测［J］. 火灾科学, 2012, 21(3): 159166.
Qi Yanjun, Cui Yu, Zhang Heping, et al. Thermal decomposition kinetics and lifetime prediction of expanded polystyrene foam［J］. Fire Safety Science, 2012, 21(3): 159-166.
［28］张弛, 李杰, 罗运军,等. PBAMO的热分解反应机理［J］. 高分子材料科学与工程, 2012, 28(10): 22-25. 
Zhang Chi, Li Jie, Luo Yunjun, et al. Thermal decomposition mechanism of PBAMO［J］. Polymer Materials Science and Engineering, 2012, 28(10): 22-25.［29］胡荣祖, 宁斌科. 中国化学会第十届化学热力学和热分析学术论文报告会文集［C］. 长沙:中南大学出版社, 2000.
［30］刘子如, 阴翠梅, 刘艳,等. RDX和HMX的热分解Ⅱ. 动力学参数和动力学补偿效应［J］. 火炸药学报, 2004, 27(4): 72-75,79.
Liu Ziru, Yin Cuimei, Liu Yan, et al. Thermal decomposition of RDX and HMX part Ⅱ: kinetic parameters and kinetic compensation effects［J］. Chinese Journal of Explosives & Propellants, 2004, 27(4): 72-75,79.
［31］Dakin, T W. Electrical insulation deterioration treated as a chemical rate phenomena［J］. American Institute of Electrical Engineers Transactions, 1948, 67(1): 113-122. 
［32］张林军, 何少蓉, 衡淑云,等. DTHL炸药热分解动力学研究及贮存寿命预估［J］. 火炸药学报, 2010, 33(3): 47-50.
Zhang Linjun, He Shaorong, Heng Shuyun, et al. Thermal decomposition kinetics and estimation of storage life of DTHL explosive［J］. Chinese Journal of Explosives & Propellants, 2010, 33(3): 47-50.
［33］汤崭, 杨利, 乔小晶,等. HMX热分解动力学与热安全性研究［J］. 含能材料, 2011, 19(4): 396-400.
Tang Zhan, Yang Li, Qiao Xiaojing, et al. On thermal decomposition kinetics and thermal safety of HMX［J］. Chinese Journal of Energetic Materials, 2011, 19(4): 396-400.
［34］Prasad T P, Kanungo S B, Ray H S. Nonisothermal kinetics: some merits and limitations［J］. Thermochimica Acta, 1992, 203: 503-514.
［35］Brown M, Flynn R M, Flynn J H. Report on the ICTAC kinetics committee(August 1992 to September 1994)［J］. Thermochimica Acta, 1995, 256(2): 477-483.
［36］Laureiro Y, Jerez A, Rouquerol J, et al. Dehydration kinetics of wyoming montmorillonit studied by controlled transformation rate thermal analysis［J］. Thermochimica Acta, 1996, 278(1-2): 165-173.
［37］任宁，张建军. 热分析动力学数据处理方法的研究进展［J］. 化学进展, 2006, 18(4): 410-416.
Ren Ning, Zhang Jianjun. Progress in datum treatment methods of thermal analysis kinetics［J］. Progress in Chemistry, 2006, 18(4): 410-416.
［38］马平，李国仲.粉状乳化炸药热分解动力学研究［J］. 爆破器材, 2009, 38(3): 1-3，7.
Ma Ping,Li Guozhong.Research on the thermal decomposition kinetics of powdery emulsion explosive［J］.Explosive Materials, 2009, 38(3): 1-3，7.

相似文献/References:

[1]薛艳,任小明,解瑞珍,等.硅基含能材料爆炸性能研究[J].爆破器材,2011,40(05):12.
　XUE Yan,REN Xiaoming,XIE Ruizhen,et al.Explosion Properties of Nanosiliconbased Energetic Materials[J].EXPLOSIVE MATERIALS,2011,40(06):12.
[2]陈言坤①,甄建伟①,武慧恩②,等.粒状发射药动态破碎研究进展[J].爆破器材,2014,43(01):41.[doi:10.3969/j.issn.1001-8352.2014.01.009]
　CHEN Yankun,ZHEN Jianwei,WU Huien,et al.Research Progress of Dynamic Fracture of Granular Propellant[J].EXPLOSIVE MATERIALS,2014,43(06):41.[doi:10.3969/j.issn.1001-8352.2014.01.009]
[3]马宁,苏杨,秦能,等.1L慢烤燃装置温场分布数值模拟与试验研究[J].爆破器材,2014,43(03):14.[doi:10.3969/j.issn.1001-8352.2014.03.004]
　MA Ning,SU Yang,QIN Neng,et al.Numerical Simulation and Experimental Study of Temperature Field Distribution in 1L Slow Cook-off Device[J].EXPLOSIVE MATERIALS,2014,43(06):14.[doi:10.3969/j.issn.1001-8352.2014.03.004]
[4]葛亚庆,许田田,杨君龙,等.5-氨基四唑/氧化铜气体发生剂燃烧性质的研究[J].爆破器材,2014,43(06):35.[doi:10.3969/j.issn.1001-8352.2014.06.008]
　GE Yaqing,XU Tiantian,YANG Junlong,et al.Study on Combustion Performance of 5Aminotetrazole/Copper Oxide Gasgenerating Agent[J].EXPLOSIVE MATERIALS,2014,43(06):35.[doi:10.3969/j.issn.1001-8352.2014.06.008]
[5]鲁学峰①,卫延安①②.N,N-双四唑胺的合成工艺改进与研究[J].爆破器材,2015,44(02):14.[doi:10.3969/j.issn.1001-8352.2015.02.004]
　LU Xuefeng,WEI Yanan.Study and Improvement of the Synthesis of N,N-Bis(1H-tetrazol-5-yl)amine[J].EXPLOSIVE MATERIALS,2015,44(06):14.[doi:10.3969/j.issn.1001-8352.2015.02.004]
[6]盛涤伦,陈利魁,朱雅红,等.耐高温起爆药叠氮化镉的合成与性能研究[J].爆破器材,2015,44(03):12.[doi:10.3969/j.issn.1001-8352.2015.03.003]
　SHENG Dilun,CHEN Likui,ZHU Yahong,et al.Synthesis and Performance of a Primary Explosive Resisting High Temperature Named Cadmium Azide[J].EXPLOSIVE MATERIALS,2015,44(06):12.[doi:10.3969/j.issn.1001-8352.2015.03.003]
[7]屈可朋,沈飞,肖玮,等.一种RDX基PBX炸药力学性能和本构关系研究[J].爆破器材,2015,44(03):31.[doi:10.3969/j.issn.1001-8352.2015.03.007]
　QU Kepeng,SHEN Fei,XIAO Wei,et al.Mechanical Behavior and Constitutive Model of one RDXbased PBX Explosive[J].EXPLOSIVE MATERIALS,2015,44(06):31.[doi:10.3969/j.issn.1001-8352.2015.03.007]
[8]李家宽,马小霞,胡艳,等.KNO3/GO复合含能材料的制备与表征[J].爆破器材,2016,45(02):1.[doi:10.3969/j.issn.1001-8352.2016.02.001]
　LI Jiakuan,MA Xiaoxia,HU Yan,et al.Preparation and Characterization of KNO3/GO Composite Energetic Materials[J].EXPLOSIVE MATERIALS,2016,45(06):1.[doi:10.3969/j.issn.1001-8352.2016.02.001]
[9]屈可朋,王晓峰,何超,等.撞击条件下分步压装装药的点火机理[J].爆破器材,2016,45(03):22.[doi:10.3969/j.issn.1001-8352.2016.03.005]
　QU Kepeng,WANG Xiaofeng,HE Chao,et al.Ignition Mechanism of Step Press Loading Charge under Impact Loading[J].EXPLOSIVE MATERIALS,2016,45(06):22.[doi:10.3969/j.issn.1001-8352.2016.03.005]
[10]刘利钊①,靳昕②,王鹏程①,等.N,N-二（三硝基乙基）硝胺（BTNNA）的合成工艺优化及热性能[J].爆破器材,2016,45(03):47.[doi:10.3969/j.issn.1001-8352.2016.03.010]
　LIU Lizhao,JIN Xin,WANG Pengcheng,et al.Synthesis Improvement and Thermal Properties of Bis(2,2,2-Trinitroethyl)-Nitramine (BTNNA)[J].EXPLOSIVE MATERIALS,2016,45(06):47.[doi:10.3969/j.issn.1001-8352.2016.03.010]

备注/Memo

备注/Memo:: 收稿日期：2013-05-30
作者简介：张涛(1988~)，男，硕士研究生，研究方向：发射药热分析。
通信作者：陈明华(1965~)，男，高级工程师，研究方向:含能材料性能检测与评估。

常用功能

工具/Tools

统计/Statistics

摘要浏览/Viewed1281
全文下载/Downloads380
评论/Comments

更新日期/Last Update: 2014-01-06