Trevino S F,Portnoy S,Schoi C.Effects of HNS on cast TNT[R].AD-A1,9.
[2]
Parry M A,Thorpe B W.Nucleation and growth of TNT containing HNS[R].AD-A4,8.
[3]
Pasupala Ravi,Badgujar D M,Gore G M.Review on melt cast explosives[J].Propellants Explosives Pyrotechnics,1,6: 393-403.
[4]
Murray A P,Barry W T.The effective nucleant during the grain modification of TNT with HNS[R].AD-A5,9.
[5]
黄亨建,董海山,张明.B炸药的改性研究及其进展[J].含能材料,1,9(4): 183-186.HUANG Heng-jian,DONG Hai-shan,ZHANG Ming.Problems and developments in composition B modification research[J].Chinese Journal of Energetic Materials(Hanneng Cailiao),1,9(4): 183-186.
[6]
徐瑞娟,罗宏,王新锋,等.改性B炸药中添加剂的作业机理[J].火炸药学报,3,6(2): 5-7.XU Rui-juan,LUO Hong,WANG Xin-feng,et al.Effect of additives on the modified composition B[J].Chinese Journal of Explosives & Propellants,3,6(2): 5-7.
[7]
董海山.钝感弹药的由来及重要意义[J].含能材料,6,4(增刊): 321-322.DONG Hai-shan.The origin and significant of insensitive ammunition[J].Chinese Journal of Energetic Materials(Hanneng Cailiao),6,4(Supplement): 321-322.
[8]
何得昌,徐军培,柴皓,等.添加剂对TNT成型性能的影响[J].火炸药学报,2000(3): 41-42.HE De-chang,XU Jun-pei,CHAI Hao,et al.The effect of additives on the forming properties of TNT[J].Chinese Journal of Explosives & Propellants,2000(3): 41-42.
[9]
王亲会.一种新型熔铸炸药研究[J].含能材料,4,2(1): 46-48.WANG Qin-hui.A new melt-cast explosive formulation[J].Chinese Journal of Energetic Materials(Hanneng Cailiao),4,2(1): 46-48.
[10]
舒远杰,霍冀川.炸药学概论[M].北京: 化学工业出版社,2011: 15-30.
[11]
王亲会.熔铸混合炸药用载体炸药评述[J].火炸药学报,1,4(5): 25-28.WANG Qin-hui.Overview of carrier explosive for melt-cast composite explosive[J].Chinese Journal of Explosives & Propellants,1,4(5): 25-28.
[12]
Pelletier P,Laroche I,Lavigne D,et al.Processing studies of DNAN-based melt-pour explosives formulations[C]∥/Insensitive Munitions and Energetic Materials Technology Symposium,Tucson,May 11-4,9.
[13]
Damavarapu R,Surapaneni R,Gelber N,et al.Melt-cast explosive materia: US 7304164[P].2007.
[14]
Ravi P,Reddy C K,Saikia A,et al.Nitrodeiodination of polyiodopyrazoles[J].Propellants,Explosives,Pyrotechnics,1,7(3): 165-169.
[15]
Agrawal J P,Hodgson R D.Organic chemistry of explosives[J].John Wiley & Sons,7,3(2): 89-96.
[16]
张光全,董海山.2,4-二硝基苯甲醚为基熔铸炸药的研究进展[J].含能材料,0,8(5): 604-609.ZHANG Guang-quan,DONG Hai-shan.Review on melt-castable explosives based on 2,4-dinitroanisole[J].Chinese Journal of Energetic Materials(Hanneng Cailiao),0,8(5): 604-609.
[17]
张志忠,王伯周,姬月萍,等.部分新型高能量密度材料的国内研究进展[J].火炸药学报,8,1(2): 93-97.ZHANG Zhi-zhong,WANG Bo-zhou,JI Yue-ping,et al.Study progress of several high energy density materials(HEDM)[J].Chinese Journal of Explosives & Propellants,8,1(2): 93-97.
[18]
Laroche I P,Pelletier P,Lavigne D,et al.Processing studies of new melt-pour explosive formulations[C]∥39nd Int Annual Conference of ICT.Karlsruhe,June 24-7,8.
[19]
Teague C A,Wilson A,Alexander B,et al.Next generation IM mortar fill-optimized PAX-33 development and characterization[C]∥Insensitive Munitions and Energetic Materials Technology Symposium.Miami,October 15-8,7.
[20]
Surapaneni R.Insensitive high energy materials[C]∥7nd High Energy Materials Conference and Exhibit.Karlsruhe,December 7-9,9.
[21]
Altenburg T,Klaptke T M,Penger A.Primary nitramines related to nitroglycerine: 1-Nitramino-2,3-dinitroxypropane and 1,2,3-trinitraminopropane[J].Centr Eur J Energ Mater,0,6: 255-276.
[22]
程普生.美研制一系列取代TNT基熔铸炸药的新炸药[R].兵器工业部第210研究所,1987.CHENG Pu-sheng.Preparation of TNT-based melt-cast explosives replacement[R].The No.210 Research Institute of China Ordnance Industry,1987.
[23]
李洪珍,舒远杰,黄弈刚,等.高能量密度材料1,3,3-三硝基氮杂环丁烷研究进展[J].化学研究与应用,3,5(1): 111-115.LI Hong-zheng,SHU Yuan-jie,HUANG Yi-gang,et al.Research progress in high energy density material 1,3,3-trinitroazetidine[J].Chemical Research and Application,3,5(1): 111-115.
[24]
杜闪,赵家乐,李永祥,等.熔铸炸药载体的研究进展及其性能比较[J].化工中间体,2011(6): 32-35.DU Shan,ZHAO Jia-le,LI Yong-xiang,et al.Study progress on melt-cast explosives carriers and comparition of their performence[J].Chemical Intermediate,2011(6): 32-35.
[25]
Sikder N,Sikder A K,Bulakh N R,et al.1,3,3-Trinitroazetidine (TNAZ),a melt-cast explosive: Synthesis,characterization and thermal behaviour[J].Journal of Hazardous Materials,2004,(113): 35-43.
[26]
王亲会,张亦安,金大勇.DNTF炸药的能量及可熔铸性[J].火炸药学报,7,7(4): 14-16.WANG Qin-hui,ZHANG Yi-an,JIN Da-yong.Energy and castibility of DNTF explosive[J].Chinese Journal of Explosives & Propellants,7,7(4): 14-16.
[27]
胡焕性,张志忠,赵凤起,等.高能量密度材料3,4-二硝基呋咱基氧化呋咱性能及应用研究[J].兵工学报,4,5(2): 155-158.HU Huan-xing,ZHANG Zhi-zhong,ZHAO Feng-qi,et al.A study on the properties and application of high energy density material DNTF[J].Acta Armamentarii,4,5(2): 155-158.
[28]
ZHOU Yan-shui,WANG Bo-zhou,LI Jian-kang.Study on synthesis,characterization and properties of 3,4-bis(4′-nitrofurazano-3′-yl)furoxan[J].Acta Chimica Sinica,2011(14): 95-99.
[29]
Ravi P,Badgujar D M,Gore G M,et al.Review on melt cast explosives[J].Propellants,Explos,Pyrotech,1,6: 393-403.
[30]
赵省向,张亦安,王晓峰.EAK基熔铸分子间炸药的能量和撞击感度[J].火炸药学报,4,7(3): 29-32.ZHAO Sheng-xiang,ZHANG Yi-an,WANG Xiao-feng.The energy and impact sensitivity of EAK based melt cast intermolecular explosive[J].Chinese Journal of Explosives & Propellants,4,7(3): 29-32.
[31]
赵省向,胡焕性,张亦安.EAK基熔铸分子间炸药的熔化安全性[J].兵工学报,3,4(2): 270-272.ZHAO Sheng-xiang,HU Huan-xing,ZHANG Yi-an.Thermal stability prediction for the melting process of an EAK-based intermolecular melt-cast explosive[J].Acta Armamentarii,3,4(2): 270-272.
[32]
Stachler A.Procedure for the preparation of explosive: German,288240[P].1995.
[33]
Dynamit A G.Improvement in relating to processes for the manufacture of cast explosive charges having a basis of ammonium nitrate: English,384966[P].1932.
[34]
Hale G C.German explosives in two wars[J].Army Ordnance,6,0: 173-196.
[35]
Hershokowitz J,Akst I.Explosive modification by consolidation of ammonium nitrate with fuel[R].ADA 2,6.
[36]
Kieft L J V,Hillstrrin W W,Pacanowsky E J.The IMX double direct process[R].ADA 0,2.
[37]
王晓川,罗宏,黄辉.EA分子间炸药的制备与性能研究[J].含能材料,2,0(3): 114-116.WANG Xiao-chuan,LUO Hong,HUANG Hui.Study on preparation techniques and properties of intermolecular explosive EA[J].Chinese Journal of Energetic Materials(Hanneng Cailiao),2,0(3): 114-116.
[38]
Michael A Patrick,Stephen A Aubert.Intermolecular complex explosives: US 4948438[P].1990.
[39]
张光全,董海山.MeNQ的合成进展及其在熔铸炸药中的应用[J].含能材料,8,6(3): 353-355.ZHANG Guang-quan,DONG Hai-shan.Synthesis progress and application of N-methyl-N′-nitroguanidine in melt /cast explosives[J].Chinese Journal of Energetic Materials(Hanneng Cailiao),8,6(3): 353-355.
[40]
赵省向,张亦安,张成伟,等.一种制备EDD的工艺方法[J].含能材料,2,0(3): 97-99.ZHAO Sheng-xiang,ZHANG Yi-an,ZHANG Cheng-wei,et al.A kind of method for preparing EDD[J].Chinese Journal of Energetic Materials(Hanneng Cailiao),2,0(3): 97-99.
[41]
赵省向,张亦安,胡焕性,等.表面活性剂改善RDX在EA低共熔物体系中的分散性研究[J].火炸药学报,2000(3): 43-45.ZHAO Sheng-xiang,ZHANG Yi-an,HU Huan-xing,et al.Surfactants improving the dispersion of RDX in AN-EDD eutectic system[J].Chinese Journa l of Explosives & Propellants,2000(3): 43-45.
[42]
张力永.分子间炸药的研究现状与发展[J].机械管理开发,8,3(3): 57-58.ZHANG Li-yong.Development and present situation of research on intermolecular explosive[J].Mechanical Management and Development,8,3(3): 57-58.
赵省向,张亦安,胡焕性,等.EAK分子间炸药的热分解[J].火炸药学报,1999(4): 24-26.ZHAO Sheng-xiang,ZHANG Yi-an,HU Huan-xing,et al.Thermal decomposition of EAK intermolecular explosive[J].Chinese Journal of Explosives & Propellants,1999(4): 24-26.
[45]
Rogers R N,Janney J L.Thermal stability and compatibality prediction for the explosive EAK[J].Journal of Energetic Materials,4,2: 293-330.
[46]
Loverro J.Ammonium nitrate explosive compositions: US 4701227[P].1987.
[47]
赵省向.EAKR分子间炸药研究[D].南京: 南京理工大学,2000.ZHAO Sheng-xiang.Research of EAKR intermolecular explosives[D].Nanjing: Nanjing University of Science and Technology,2000.
[48]
Voreck J.Castable high explosive composive compositions of low sensitivity: US 4421578[P].1983.
[49]
Sumrail.Aluminized eutectic bonded insensitive high explosive: US 5411615[P].1995.
[50]
Manfred S,Wilfred G,Schmidt,et al.Ammonium salt lattice with isomorphously substituted inorganic salts: US 3269879[P].1966.
[51]
Stephen S R.The development of AFX-453[C]∥Proc Insensitive Munitions Tech Symp.June 15-8,2.
[52]
孙杰,夏云霞,张学梅,等.TNT替代物研制[R].中国工程物理研究院化工材料研究所,2011.
[53]
Doll Daniel W,Hanks Jami M,Allred Alan G,et al.Reduced sensitivity melt pourable TNT replacements: WO2003/0002486[P].2003.
[54]
Phil D J,Arthur Provatas.Characterisation of 2,4-dinitroanisole: an ingredient for use in low sensitivity melt cast formulations[C]∥Defence Science and Technology Organisation,Australian, 1904.
周文静,张皋,刘子如.DNTF、TNT和DNTF-TNT低共熔物在RDX中的结晶动力学研究[J].含能材料,8,6(3): 267-271.ZHOU Wen-jing,ZHANG Gao,LIU Zi-ru.Kinetics of non-isothermal crystallizations of DNTF,TNT and DNTF-TNT eutectic system crystallization in RDX[J].Chinese Journal of Energetic Materials(Hanneng Cailiao),8,6(3): 267-271.
[57]
SHAO Ying-hui,REN Xiao-ning,LIU Zi-ru,et al.Ternary phase diagrams of DNTF and TNAZ and their eutectics[J].Therm Anal Calorim,1,3: 617-623.
[58]
任晓宁,衡淑云,邵颖惠,等.DNTF/PETN体系的二元相图及低共熔物[J].含能材料,9,7(4): 455-458.REN Xiao-ning,HENG Shu-yun,SHAO Ying-hui,et al.The binary phase diagram and eutectic system for DNTF/PETN[J].Chinese Journal of Energetic Materials(Hanneng Cailiao),9,7(4): 455-458.
[59]
张学梅,董海山,夏云霞,等.3-氨基-2,4,6-三硝基苯甲醚的合成及性能[J].含能材料,0,8(2): 135-138.ZHANG Xue-mei,DONG Hai-shan,XIA Yun-xia,et al.Synthesis and properties of 3-amino-2,4,6-trinitroanisole[J].Chinese Journal of Energetic Materials(Hanneng Cailiao),0,8(2): 135-138.
[60]
王浩,王亲会,黄文斌,等.DNAN降低DNTF冲击波感度研究[J].含能材料,0,8(4): 435-438.WANG Hao,WANG Qin-hui,HUANG Wen-bing,et al.Shock sensitivity of DNTF reduced by using DNAN[J].Chinese Journal of Energetic Materials(Hanneng Cailiao),0,8(4): 435-438.
