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含能材料 2012

含能材料机械化学研究进展

DOI: 10.3969/j.issn.1006-9941.2012.03.023

李铁成,杨利,李志敏,张同来

Keywords: 含能材料,机械化学,实验研究,理论研究

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Abstract:

概述了机械化学的起源、特点及其在含能材料研究领域中的应用与发展状况。含能材料机械化学可分为实验研究与理论研究。本文重点汇集和评述了国内外在含能材料机械化学理论研究领域的进展,分析了含能材料的爆炸始发机制、结构与性能的关系以及感度性能理论预测等方面的研究成果，展望了机械化学在含能材料领域的发展前景。附参考文献70篇。

References

[1]	Pagoria P F,Lee G S,Mitchell A R,et al. A review of energetic materials synthesis[J]. Thermochimica Acta,2002,384: 187-204.
[2]	朱卫华,张效文,肖鹤鸣. 高能晶体撞击感度理论研究: 第一性原理带隙(ΔEg)判据[J]. 含能材料,2010,18(4): 431-434. ZHU Wei-hua,ZHANG Xiao-wen,XIAO He-ming. Theoretical studies of impact sensitivity of energetic[J]. Chinese Journal of Energetic Materials(Hanneng Cailiao),2010,18(4): 431-434.
[3]	杨华明,邱冠周,王淀佐. 超细粉碎机械化学的发展[J]. 金属矿山,2000,72: 21-24. YANG Hua-ming,QIU Guan-zhou,WANG Dian-zuo. Development of the mechano-chemistry of super-fine crushing[J]. Metal Mine,2000,72: 21-24.
[4]	彭秧锡,陈启元,刘士军,等. 机械化学的研究发展现状与展望[J]. 材料科学与工艺,2009,17(1): 113-117. PENG Yang-xi,CHEN Qi-yuan,LIU Shi-jun,et al. Research status and prospect of mechanochemistry[J]. Materials Science and Technology,2009,17(1): 113-117.
[5]	宋晓岚,邱冠周,杨华明. 机械化学及其应用研究进展[J]. 金属矿山,2004（11）: 34-38. SONG Xiao-lan,QIU Guan-zhou,YANG Hua-ming. Mechanochemistry and advances in its application research[J]. Metal Mine,2004,11: 34-38.
[6]	王睿,蒋军成,潘勇. 硝基含能材料撞击感度的预测研究进展[J]. 工业安全与环保,2010,36(7): 19-20. WANG Rui,JIANG Jun-cheng,PAN Yong. Research on the prediction of impact sensitivity of nitro energetic materials[J]. Industrial Safety and Environmental Protection,2010,36(7): 19-20.
[7]	帅英,张少明,路承杰. 机械力化学研究进展及其展望[J]. 新技术新工艺,2006,11: 22-23. SHUAI Ying,ZHANG Shao-ming,LU Cheng-jie. Research progress and prospect of mechnochemistry[J]. New Technology & New Process, 2006,11: 22-23.
[8]	张建国,张同来,魏昭荣. 起爆药结构与感度关系及新型起爆药的发展方向[J]. 爆破器材,2001,30(3): 10-14. ZHANG Jian-guo,ZHANG Tong-lai,WEI Zhao-rong. The relations of the structure and explosive property of primary explosives[J]. Explosive Materials,2001,30(3): 10-14.
[9]	姬广富,张艳丽,李晓凤,等. 极端条件下含能材料的计算机模拟[J]. 高能量密度物理,2008,6(2): 77-96. JI Guang-fu,ZHANG Yan-li,LI Xiao-feng,et al. Computer simulation for energetic materials under the extreme condition[J]. High Energy Density Physics,2008,6(2): 77-96.
[10]	Miles M H,Dickinson J T. Fracto-emission from pentaerythritol tetranitrate and cyclotetramethylene tetranitramine single crystals[J]. Applied Physics Letters,1982,41(10): 924-926.
[11]	Kanel G I,Razorenov S V,Fortov V E,et al. Shock-wave Phenomena and the Properties of Condensed Matter[M]. Berlin: Springer-Verlag,2004.
[12]	Campbell A W,Davis W C,Ramsay J B,et al. Shock initiation of solid explosives[J]. Physics of Fluids,1961,4: 511-521.
[13]	Elban W L,Armstrong R W,Yoo K C,et al. X-ray reflection topographic study of growth defect and micro-indentation strain fields in an RDX explosive crystal[J]. Journal of Materials Science,1989,24(4): 1273-1280.
[14]	Dremin A N,Savrov S D,Trofimov V S,et al. Detonatsionnie volny v kondensirovannykh sredakh (Detonation Waves in Condensed Media)[M]. Moscow: Nauka,1970.
[15]	Borne L. Influence of intragranular cavities of RDX particle batches on the sensitivity of cast wax bonded explosives[C]∥Proc. 10th Symposium(International)on Detonation,Boston,Massachusetts,1993: 286-293.
[16]	Bailou F,Dartyge. Influence of crystal defects on sensitivity of explosives[C]∥Proc. 10th Symposium (International) on Detonation,Boston,Massachusetts,1993: 816-823.
[17]	黄亨建,董海山,舒远杰,等. HMX中晶体缺陷的获得及其对热感度和热安定性的影响[J]. 含能材料,2003,11(3): 123-126. HUANG Heng-jian,DONG Hai-shan,SHU Yuan-jie,et al. The preparation of HMX crystals with defects and the influences of crystal defects on thermal sensitivity and stability[J]. Chinese Journal of Energetic Materials(Hanneng Cailiao),2003,11(3): 123-126.
[18]	Miao M S,Dreger Z A,Patterson J E,et al. Shock wave induced decomposition of RDX: Quantum chemistry calculations[J]. Journal of Physical Chemistry A,2008,112: 7383-7390.
[19]	Kuklja M M,Kunz A B. Ab initio simulation of defects in energetic materials. Ⅰ. The molecular vacancy structure in RDX crystal[J]. Journal of Physics and Chemistry of Solids,2000,61: 35-44.
[20]	Kuklja M M,Kunz A B. Ab initio simulation of defects in energetic materials. Ⅱ. Hydrostatic compression of cyclotrimethylenetrinitramine[J]. Journal of Applied Physics,1999,86(8): 4428-4434.
[21]	Kuklja M M,Kunz A B. Simulation of defects in energetic materials. 3. The structure and properties of RDX crystals with vacancy complexes[J]. Journal of Physical Chemistry B,1999,103: 8427-8431.
[22]	张朝阳,舒远杰,赵晓东,等. 分子内氨基对C—NO2影响的理论研究[J]. 火炸药学报,2004,27(3): 32-35. ZHANG Chao-yang,SHU Yuan-jie,ZHAO Xiao-dong,et al. Effects of intramolecular amidos on C—NO2 bond in nitro compounds[J]. Chinese Journal of Explosives & Propellants,2004,27(3): 32-35.
[23]	张朝阳,舒远杰,董海山,等. 几种烷烃和烯烃氨基硝基取代物分子内氨基对C—NO2键影响的理论研究[J]. 火炸药学报,2005,28(1): 54-57. ZHANG Chao-yang,SHU Yuan-jie,DONG Hai-shan,et al. Theoretical study on C—NO2 bond effected by intramolecular amidos[J]. Chinese Journal of Explosives & Propellants,2005,28(1): 54-57.
[24]	张朝阳,舒远杰,黄奕刚,等. 二硝基多呋咱类气态标准生成热的计算[J]. 含能材料,2005,13(3): 162-165. ZHANG Chao-yang,SHU Yuan-jie,HUANG Yi-gang,et al. Calculation for normal heat of formation of dinitro-polyfurazan series in gas state[J]. Chinese Journal of Energetic Materials(Hanneng Cailiao),2005,13(3): 162-165.
[25]	梁晓琴,蒲雪梅,舒远杰,等. 苯及其含氮等电子体化合物的结构和性质的理论研究[J]. 化学学报,2006,64(20): 2057-2064. LIANG Xiao-qin,PU Xue-mei,SHU Yuan-jie,et al. Theoretical studies on structures and properties of benzene and its nitrogen isoelectronic equivalents[J]. Acta Chimica Sinica,2006,64(20): 2057-2064.
[26]	王泽山. 含能材料和含能材料学科的进展(3)[J]. 化工时刊,1995(9): 9-14. WANG Ze-shan. Energetic materials and progress in this discipline[J]. Chemical Industry Times,1995(9): 9-14.
[27]	安亭,赵凤起,张平飞.纳米含能材料制备研究的最新进展[J].纳米科技,2009,6(6):60-67. AN Ting,ZHAO Feng-qi,ZHANG Ping-fei. Progresses in the preparation study of energetic nanomaterials[J]. Nanoscience & Technology,2009,6(6):60-67.
[28]	何鸣鸿,金祖亮. 从历年科学基金项目看我国纳米科技的发展: 纳米材料和技术应用进展[C]∥全国第二届纳米材料和技术应用会议论文集,中国材料研究学会,北京,2001: 8-13. HE Ming-hong,JIN Zu-liang. Research progress in the application technology of nanophase materials[C]∥Symposia Proceedings of C-MRS 2001,Chinese Materials Research Society,Beijing,2001: 8-13.
[29]	莫红军,赵凤起. 纳米含能材料的概念与实践[J]. 火炸药学报,2005,28(3): 79-82. ZHAO Feng-qi,MO Hong-jun. The concept and practice of energetic nanomaterials[J]. Chinese Journal of Explosives & Propellants,2005,28(3): 79-82.
[30]	张汝冰,刘宏英,李凤生. 复合纳米材料制备研究(Ⅱ)[J]. 火炸药学报,2000(1): 59-61. ZHANG Ru-bing,LIU Hong-ying,LI Feng-sheng. Preparation of composite nanometer sized particle(Ⅱ)[J]. Chinese Journal of Explosives & Propellants,2000(1): 59-61.
[31]	Yu W F,Huang H,Nie F D,et al. Preparation of explosive nanometer composite of porous silicon-nitrate salt[C]∥34th International Annual Conference of IC,Mianyang,2003,171/1-171/8.
[32]	Schoenitz M,Ward T,Dreizin E L. Preparation of energetic metastable nanocomposite matearials by reactive milling[C]∥Materials Research Society Symposium Proceedings (2003),Synthesis,Characterization and Properties of Energetic/Reactive Nanomaterials Symposium(Materials Research Society Symposium Proceedings),New Jersey,2004,800: 85-90.
[33]	Bowden F P,Yoffe Y D. Initiation and Growth of Explosion in Liquids and Solids[M]. London: Cambridge University Press,1952.
[34]	Dienes J K. Frictional hot-spots and propellant sensitivity[C]∥Materials Research Society Symposium Proceedings (1984),24 (Defect Prop. Process. High-Technol. Nonmet. Mater. ),New Mexico,1984: 373-381.
[35]	Duval G E,Gupta Y M. Shock Waves in Condensed Matter[M]. New York: Plenum Press,1985.
[36]	劳允亮. 起爆药化学与工艺学[M]. 北京: 北京理工大学出版社,1997. LAO Yun-liang. Chemistry and Technology of Primary Explosive[M]. Beijing: Beijing Institute of Technology Press,1997.
[37]	Gilman J J. Mechanochemistry[J]. Science,1996,274(4): 65.
[38]	Khorev I E,Gorel′Skii V A,Yugov N T,et al. Numerical analysis of the physical characteristics of the three-dimensional problem of high-velocity collision of a deformable body with an obstacle[J]. Soviet Physics Doklady,1985,20: 622.
[39]	Kuklja M M,Kunz A B. Compression-induced effect on the electronic structure of cyclotrimethylenetrinitramine containing an edge dislocation[J]. Journal of Applied Physics,2000,87(5): 2215-2218.
[40]	Kuklja M M,Stefanovich E V,Kunz A B. An excitonic mechanism of detonation initiation in explosives[J]. Journal of Chemical Physics,2000,112(7): 3417-3423.
[41]	张朝阳,舒远杰,王新锋,等. 呋咱及其自由基结构和性质的理论研究[J]. 含能材料,2004,12(4): 222-226. ZHANG Chao-yang,SHU Yuan-jie,WANG Xin-feng,et al. Theoretical study on structures and properties of furazan and its radicals[J]. Chinese Journal of Energetic Materials(Hanneng Cailiao),2004,12(4): 222-226.
[42]	熊鹰,舒远杰,周歌,等. 均四嗪热分解机理的从头算分子动力学模拟及密度泛涵理论研究[J]. 含能材料,2006,14(6): 421-424. XIONG Ying,SHU Yuan-jie,ZHOU Ge,et al. Thermal decomposition mechanism of s-tetrazine by ab initio molecular dynamics and density functional theory[J]. Chinese Journal of Energetic Materials(Hanneng Cailiao),2006,14(6): 421-424.
[43]	周阳,龙新平,舒远杰,等.六元氮杂环取代四嗪化合物的密度泛函理论研究[J].含能材料,2006,14(6):429-435. ZHOU Yang,LONG Xin-ping,SHU Yuan-jie,et al. Theoretical studies on structures and properties of nitroimidazole compounds[J]. Chinese Journal of Energetic Materials(Hanneng Cailiao),2006,14(6):429-435.
[44]	熊鹰,舒远杰,王新锋,等. 四嗪类高氮化合物结构对热分解机理影响的理论研究[J]. 火炸药学报,2008,31(1): 1-5. XIONG Ying,SHU Yuan-jie,WANG Xin-feng,et al. Theoretical study on effect of tetrazine structures on their thermal decomposition mechanisms[J]. Chinese Journal of Explosives & Propellants,2008,31(1): 1-5.
[45]	殷明,舒远杰,熊鹰,等. 硝基咪唑化合物结构与性质的理论研究[J]. 化学学报,2008,66(19): 2117-2123. YIN Ming,SHU Yuan-jie,XIONG Ying,et al. Theoretical studies on structures and properties of nitroimidazole compounds[J]. Acta Chimica Sinica,2008,66(19): 2117-2123.
[46]	杜军良,舒远杰,周阳,等. 硝基苯胺炸药的芳香性与其撞击感度的关系[J]. 火炸药学报,2008,31(4): 6-9. DU Jun-liang,SHU Yuan-jie,ZHOU Yang,et al. Relationship between the impact sensitivities and aromaticity for nitroanilines explosives[J]. Chinese Journal of Explosives & Propellants,2008,31(4): 6-9.
[47]	殷明,舒远杰,熊鹰,等. 吡唑类化合物结构与性能关系的理论研究[J]. 含能材料,2008,16(5): 567-576. YIN Ming,SHU Yuan-jie,XIONG Ying,et al. Theoretical study on relationship between structures and properties of pyrazole compounds[J]. Chinese Journal of Energetic Materials(Hanneng Cailiao),2008,16(5): 567-576.
[48]	舒远杰,杜军良,黄奕刚,等. 芳香族硝基化合物撞击感度的理论研究[J]. 绵阳师范学院学报,2009,28(8): 1-7. SHU Yuan-jie,DU Jun-liang,HUANG Yi-gang,et al. A theoretical study on the impact sensitivity of organic nitro-compounds[J]. Journal of Mianyang Normal University,2009,28(8): 1-7.
[49]	杜军良,舒远杰,周阳,等. 硝基炸药撞击感度的QSPR研究[J]. 绵阳师范学院学报,2009,28(11): 45-40. DU Jun-liang,SHU Yuan-jie,ZHOU Yang,et al. QSPR study on the impact sensitivity of nitroaromatics[J]. Journal of Mianyang Normal University,2009,28(11): 45-40.
[50]	熊鹰,舒远杰,殷明,等. N-甲基-N′-甲氧基偶氮-N-氧化物结构和性能的理论研究[J].含能材料,2010,18(3):247-251. XIONG Ying,SHU Yuan-jie,YIN Ming,et al. Theoretical study on structure and properties of N-methyl-N′-methoxydiazene-N-oxide[J]. Chinese Journal of Energetic Materials(Hanneng Cailiao),2010,18(3):247-251.
[51]	姬广富,肖鹤鸣,董海山. β-HMX晶体结构及其性质的高水平计算研究[J]. 化学学报,2002,60(2): 194-199. JI Guang-fu,XIAO He-ming,DONG Hai-shan. High level calculations on structure and properties of crystalline β-HMX[J]. Acta Chimica Sinica,2002,60(2): 194-199.
[52]	姬广富,肖鹤鸣,居学海,等. TATB晶体结构的周期性密度泛函理论研究[J].化学学报,2003,61(8):1186-1191. JI Guang-fu,XIAO He-ming,JU Xue-hai,et al. Periodic DFT studies on the structure of crystalline TATB[J]. Acta Chimica Sinica,2003,61(8):1186-1191.
[53]	居学海,肖鹤鸣. 季戊四醇四硝酸酯晶体能带结构和起爆机理的DFT研究[J]. 高等学校化学学报,2003,24(11): 2035-2038. JU Xue-hai,XIAO He-ming. DFT studies on energy band structure and detonation mechanism of pentaerythritol tetranitrate crystal[J]. Chemical Journal of Chinese Universities,2003,24(11): 2035-2038.
[54]	肖继军,方国勇,姬广富,等. HMX基高聚物粘结炸药结合能和力学性能的模拟研究[J]. 科学通报,2004,49(24): 2520-2524. XIAO Ji-jun,FANG Guo-yong,JI Guang-fu,et al. Researches on binding energy and mechanic property for HMX-based PBX[J]. Chinese Science Bulletin,2004,49(24): 2520-2524.
[55]	邱玲,肖鹤鸣,居学海,等. 双环-HMX结构和性质的理论研究[J]. 化学学报,2005,63(5): 377-384. QIU Ling,XIAO He-ming,JU Xue-hai,et al. Theoretical study on the structures and properties of bicyclo-HMX[J]. Acta Chimica Sinica,2005,63(5): 377-384.
[56]	胡应杰,黄玉成,肖继军,等. TATB/氟聚物PBX沿不同晶面力学性能的分子动力学模拟[J]. 中国科学B辑: 化学,2005,35(3): 194-199. HU Ying-Jie,HUANG Yu-cheng,XIAO Ji-jun,et al. Molecular dynamics simulation of mechanical properties of TATB/fluorine-polymers PBX[J]. Science in China Series B: Chemistry,2005,35(3): 194-199.
[57]	黄玉成,胡应杰,肖继军,等. TATB基PBX结合能的分子动力学模拟[J]. 物理化学学报,2005,21(4): 425-429. HUANG Yu-cheng,HU Ying-Jie,XIAO Ji-jun,et al. Molecular dynamics simulation of binding energy of TATB-based PBX[J]. Acta Physico-Chimica Sinica,2005,21(4): 425-429.
[58]	肖继军,谷成刚,方国勇,等. TATB基PBX结合能和力学性能的理论研究[J]. 化学学报,2005,63(6): 439-444. XIAO Ji-jun,GU Cheng-gang,FANG Guo-yong,et al. Theoretical study on binding energies and mechanical properties of TATB-based PBX[J]. Acta Chimica Sinica,2005,63(6): 439-444.
[59]	肖继军,王艳群,詹炜,等. PETN基PBX结合能和力学性能的理论研究[J]. 分子科学学报,2006,22(4): 219-225. XIAO Ji-jun,WANG Yan-qun,ZHAN Wei,et al. Theoretical study on binding energies and mechanical properties of PETN-based PBX[J]. Journal of Molecular Science,2006,22(4): 219-225.
[60]	马秀芳,赵峰,肖继军,等. HMX基多组分PBX结构和性能的模拟研究[J]. 爆炸与冲击,2007,27(2): 109-115. MA Xiu-fang,ZHAO Feng,XIAO Ji-jun,et al. Simulation study on structure and property of HMX-based multi-components PBX[J]. Explosion and Shock Waves,2007,27(2): 109-115.
[61]	王桂香,肖鹤鸣,居学海,等. 含能材料的密度、爆速、爆压和静电感度的理论研究[J]. 化学学报,2007,65(6): 517-524. WANG Gui-xiang,XIAO He-ming,JU Xue-hai,et al. Theoretical studies on densities,detonation velocities and pressures and electric spark sensitivities of energetic materials[J]. Acta Chimica Sinica,2007,65(6): 517-524.
[62]	朱伟,肖继军,赵峰,等. HMX/TATB复合材料弹性性能的MD 模拟[J]. 化学学报,2007,65(13): 1223-1228. ZHU Wei,XIAO Ji-jun,ZHAO Feng,et al. Molecular dynamics simulation of elastic properties of HMX/TATB composite[J]. Acta Chimica Sinica,2007,65(13): 1223-1228.
[63]	许晓娟,肖继军,黄辉,等. ε-CL-20基PBX结构和性能的分子动力学模拟: HEDM理论配方设计初探[J]. 中国科学B辑: 化学,2007,37(6): 556-563. XU Xiao-juan,XIAO Ji-jun,HUANG Hui,et al. Molecular dynamics simulation of the crystal structure and properties for ε-CL-20 based PBX[J]. Science in China Series B: Chemistry,2007,37(6): 556-563.
[64]	Xu X J,Zhu W H,Xiao H M. DFT studies on the four polymorphs of crystalline CL-20 and the influences of hydrostatic pressure on ε-CL-20 Crystal[J]. Journal of Physical Chemistry B,2007,111: 2090-2097
[65]	肖鹤鸣,许晓娟,邱玲. 高能量密度材料的理论设计[M]. 北京: 科学出版社,2008. XIAO He-ming,XU Xiao-juan,QIU Ling. Theoretical Design of High Energy Density Materials[M]. Beijing: Science Press,2008.
[66]	Xiao H M,Li Y F. Banding and electronic structures of metal azides sensitivity and conductivity[J]. Science in China Series B: Chemistry,1995,38: 538-545.
[67]	Zhu W H,Xiao J J,Xiao H M. Comparative first-principles study of structural and optical properties of alkali metal[J]. J Phys Chem B,2006,110: 9856-9862.
[68]	Zhu W H,Xiao H M. Ab initio study of energetic solids: cupric azide,mercuric azide,and lead azide[J]. Journal of Physical Chemistry B,2006,110: 18196-18203.
[69]	Zhu W H,Xiao J J,Ji G F,et al. First-principles study of the four polymorphs of crystalline octahydro-1,3,5,7-tetranitro-1,3,5,7-tetrazocine[J]. Journal of Physical Chemistry B,2007,111: 12715-12722.
[70]	Zhu W H,Wei T,Zhu W,et al. Comparative DFT Study of crystalline ammonium perchlorate and ammonium dinitramide[J]. Journal of Physical Chemistry A,2008,112: 4688-4693.

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