Page 65 - 《含能材料》2018年优秀论文
P. 65

1068                                                                                        李凤生,刘杰

                 tion of HMX ultrafine particles by supercritical CO 2 method  [53] 周得才,吕春玲,李梅,等 . 粒度对硝胺类炸药烤燃热感度的影
                [J]. Chinese Journal of Explosives and Propellants,2008,31  响[J]. 含能材料,2011,19(4):442-444.
                (4):22-26.                                           ZHOU De‐cai,LV Chun‐ling,Li Mei,et al. Effect of particle
            [42] 赵瑞先 . 超临界流体制取超微细高能炸药新工艺[J]. 国防技术                    size of nitroamine explosives on cook‐off sensitivity[J]. Chi⁃
                 基础,2003(1):26-28,39.                                nese Journal of Energetic Materials(Hanneng Cailiao),2011,
                 ZHAO Rui‐xian. New technology for preparing ultra‐fine  19(4):442-444.
                 high‐energy explosives by supercritical fluid[J]. National De⁃  [54] 王瑞浩,晋日亚,张伟,等 . 超细 ε‐HNIW 的制备及表征[J]. 火
                 fense Technical Foundation,2003(1):26‐-8,39.        工品,2015(1):34-37.
            [43] Lee B M,Kim D S,Lee Y H,et al. Preparation of submi‐  WANG Rui‐hao,JIN Ri‐ya,ZHANG Wei,et al. Preparation
                 cron‐sized RDX particles by rapid expansion of solution using  and characterization of ultrafineε‐HNIW[J]. Initiators and py⁃
                 compressed liquid dimethyl ether[J]. Journal of Supercritical  rotechnics,2015(1):34-37.
                 Fluids,2011,57(3):251-258.                     [55] 张亮,赖一顺 . 喷射法细化 CL‐20 的实验与形貌表征[J]. 广东化
            [44] Matsuzaki S,Okitsu T,Ouchi K,et al. Crystal shape control  工,2018,45(365):58-59,69.
                 of RDX using supercritical carbon dioxide[J]. Science and  ZHANG Liang, LAI Yi‐shun. Experiments and morphology
                 Technology of Energetic Materials,2005,66(6):436-442.  characterization of ultrafine CL‐20 by spray method [J].
            [45] Dou H,Kim K H,Lee B C,et al. Preparation and character‐  Guangdong Chemical Industry,2018,45(365):58-59,69.
                 ization of cyclo‐1,3,5‐trimethylene‐2,4,6‐trinitramine(RDX)  [56] Wang J,Li J,An C,et al. Study on ultrasound‐ and spray‐as‐
                 powder:comparison of microscopy,dynamic light scattering  sisted precipitation of CL‐20[J]. Propellants ,Explosives,Pyro⁃
                 and field‐flow fractionation for size characterization[J]. Pow⁃  technics,2012,37(6):670-675.
                 der Technology,2013,235:814-822.               [57] 邵琴 .TATB 基 PBX 传爆药配方优化设计及性能研究[D]. 太原:
            [46] Bayat Y,Pourmortazavi S M,Iravani H,et al. Statistical opti‐  中北大学,2016.
                 mization of supercritical carbon dioxide antisolvent process for  SHAO Qin. Formulation optimization and performance test of
                 preparation of HMX nanoparticles[J]. Journal of Supercritical  TATB based PBX[D]. Taiyuan:North Central University,2016.
                 Fluids,2012,72:248-254.                        [58] 邵琴,徐文铮,王晶禹,等 .TATB 基 PBX 配方研究及性能测试
            [47] 尚菲菲,张景林,张小连,等 . 超临界流体增强溶液扩散技术制                      [J]. 火工品,2015(5):46-49.
                 备纳米 CL‐20 及表征[J]. 火炸药学报,2012,35(6):37-40.           SHAO Qin,XU Wen‐zheng,WANG Jing‐yu,et al. Formula‐
                 SHANG Fei‐fei,ZHANG Jing‐lin,ZHANG Xiao‐lian,et al.  tion research and performance testof TATB‐based PBX[J]. Initi⁃
                 Preparation and characterization of nano‐CL‐20 with solution  ators and Pyrotechnics,2015(5):46-49.
                 enhanced dispersion by supercritical fluids[J]. Chinese Jour⁃  [59] 李玉斌,黄辉,李金山,等 . 一种含 LLM‐105 的 HMX 基低感高
                 nal of Explosives and Propellants,2012,35(6):37-40.  能 PBX 炸药[J]. 火炸药学报,2008,32(5):1-4.
            [48] 陈亚芳,王保国,张景林,等 . 超临界 GAS 的工艺条件对 CL‐20                LI Yu‐bin,HUANG Hui,LI Jin‐shan,et al. A new HMX‐based
                 粒度和晶型的影响[J]. 火炸药学报,2010,33(3):9-13.                 low‐sensitive high energy PBX explosive containing LLM‐105
                 CHEN Ya‐fang,WANG Bao‐guo,ZHANG Jing‐lin,et al. Influ‐  [J]. Chinese Journal of Explosives and Propellants,2008,32
                 ence of supercritical gas anti‐solvent technologicaI conditions  (5):1-4.
                 on particle size and modes of crystallization of CL‐20[J]. Chi⁃  [60] 宋小兰,李凤生,张景林,等 . 纳米 RDX 的制备及其机械感度和
                 nese Journal of Explosives and Propellants,2010,33(3):  热分解特性[J]. 火炸药学报,2008,31(6):1-4.
                 9-13.                                               SONG Xiao‐lan,LI Feng‐sheng,ZHANG Jing‐lin,et al. Prepa‐
            [49] He B,Stepanov V,Qiu H,et al. Production and characteriza‐  ration, mechanical sensitivity and thermal decomposition
                 tion of composite nano‐RDX by ress co‐precipitation[J]. Pro⁃  characteristics of RDX nanoparticles[J]. Chinese Journal of Ex⁃
                 pellants,Explosives,Pyrotechnics,2015,40(5):659-664.  plosives and Propellants,2008,31(6):1-4.
            [50] 陈亚芳,王保国,张景林,等 . 高纯度亚微米级 RDX 的制备、表              [61] 晋苗苗,罗运军 . 硝化棉/黑索今纳米复合含能材料的制备与热
                 征与性能[J]. 火工品,2010(2):48-50.                         性能研究[J]. 兵工学报,2014,35(6):822-827.
                 CHEN Ya‐fang,WANG Bao‐guo,ZHANG Jing‐lin,et al. Prep‐  JIN Miao‐miao,LUO Yun‐jun. Preparation and thermal proper‐
                 aration, characterization and performances of high purity  ties of NC / RDX nano‐composite energetic materials[J]. Acta
                 sub‐micron RDX[J]. Initiators and Pyrotechnics,2010(2):  Armamentrii,2014,35(6):822-827.
                 48-50.                                         [62] Nie F,Zhang J,Guo Q,et al. Sol‐gel synthesis of nanocom‐
            [51] 柴涛,张景林 . 主体炸药超细粒度级配对混合传爆药压药密度的                      posite crystalline HMX /AP coated by resorcinol‐formaldehyde
                 影响研究[J]. 火炸药学报,2002(4):71-72.                       [J]. Journal of Physics and Chemistry of Solids,2010,71(2):
                 CHAI Tao, ZHANG Jing‐lin. Effect of particle gradation of  109-113.
                 HMX on the compressibility of a typical booster explosive[J].  [63] Tappan B C,Li Jun,Brill T B. Synthesis and characterization
                 Chinese Journal of Explosives and Propellants, 2002(4):  of energetic nanocomposites[C]//Proceedings of the NATAS
                 71-72.                                              Annual Conference on Thermal Analysis and Applications,
            [52] 王晶禹,张景林,徐文峥 . 微团化动态结晶法制备超细 HMX 炸                    33rd,2005:095.36.986/1-8.
                 药[J]. 爆炸与冲击,2003,23(3):262-266.                [64] 李博 . 硝基胍基复合含能材料的制备及表征[D]. 绵阳:西南科
                 WANG Jing‐yu,ZHANG Jing‐lin,XU Wen‐zheng. Utrafine  技大学,2016.
                 HMX explosive preparation with atomizing kinetic crystal  LI Bo.Preparation and characterization of nitroguanidine com ‐
                 method[J]. Explosion and Shock Waves, 2003, 23(3):  posite energetic materials[D]. Mianyang:Southwest Universi‐
                 262-266.                                            ty of Science and Technology,2016.


            Chinese Journal of Energetic Materials,Vol.26, No.12, 2018(1061-1073)  含能材料    www.energetic-materials.org.cn
   60   61   62   63   64   65   66   67   68   69   70