[2] [2] MIAO Qin-shu,XU Geng-guang,WANG Yan-zeng.Mechanism analysis of the influense of Al shape and size on the detonation properties of aluminized explosives[J].Chinese Journal of Explosives & Propellants,2002(2):4-8.（in Chinese）

[3] [3] ZHOU Z Q,CHEN J G,YUAN H Y,et al.Effects of aluminum particle size on the detonation pressure of TNT/Al[J].Propellants,Explosives,Pyrotechnics,2017(42):1401-1409.

[4] [4] MAKHOV M N.Acceleration ability of aluminum-containing explosive compositions[J].Russian Journal of Physical Chemistry B,2018,12(2):258-265.

[6] [6] WANG Hui,SHEN Fei.Effect of active aluminum powder on the driving ability of RDX-based aluminized explosive[J].Science Technology and Engineering,2016,16(3):123-126.（in Chinese）

[8] [8] WANG Su-wei,XIAO Lei,HU Yu-bing,et al.A review on the preparation and application of nano-energetic materials[J].Chinese Journal of Explosives & Propellants,2021,44(6):705-734.（in Chinese）

[10] [10] LI Fengsheng,LIU Jie.Advances in micronano energetic materials[J].Chinese Journal of Energetic Materials(Hanneng Cailiao),2018,26(12):1061-1073.（in Chinese）

[12] [12] SHEN Yi-lin,LI Xin.Research progress of high activity metal aluminum powder[J].Chemical Propellants & Polymeric Materials,2015,13(2):40-45.（in Chinese）

[14] [14] CAO Shao-ting,NIU Lei,FENG Xue-song,et al.The influence of nano-aluminum on the detonation velocity of RDX-based explosive[J].Initiators & Pyrotechnics,2019(1):50-52.（in Chinese）

[15] [15] GOGULYA M F，MAKHOV M N,BRAZHNIKOV M A,et al.Explosive characteristics of aluminized HMX-based nanocomposites[J].Combustion,Explosion,and Shock Waves,2008,44(2):198-212.

[16] [16] BROUSSEAU P,ANDERSON C J.Nanometric aluminum in explosives[J].Propellants,Explosives,Pyrotechnics,2002(27):300-306.

[17] [17] LIU D Y,ZHAO P,CHAN S H Y,et al.Effects of nano-sized aluminum on detonation characteristics and metal acceleration for RDX-based aluminized explosive[J].Defence Technology,2021,17:327-337.

[19] [19] SUN Ye-bin,HUI Jun-min,CAO Xin-mao.Military composite explosive[M].Beijing:Ordnance Industry Press,1995.（in Chinese）

[21] [21] WANG Shu-ping,FENG Xue-song,YAO Li-na,et al.The influence of nanometer aluminum on the explosion heat of RDX-based explosive[J].Initiators & Pyrotechnics,2014(1):21-24.（in Chinese）

[23] [23] YAO Li-na，WANG Cai-ling，DAI Zhi-xin，et al.Influence of nano-aluminum on the explosion heat and thermal stability of DNTF pressed mixed explosives[J].Initiators & Pyrotechnics,2014(4):47-49.（in Chinese）

[25] [25] BAI Fan,LIU Yan,HUANG Feng-lei.Research on equation of state of detonation product of RDX-based aluminized explosive with aluminum reaction[J].Acta Armamentarii,2017,38(S1):187-193.（in Chinese）

[27] [27] HUANG Hui,HUANG Heng-jian,HUANG Yong,et al.The influence of aluminum particle size and oxidizer morphology in RDX-based aluminized explosives on their ability to accelerate metals[J].Explosion and Shock Waves,2007,26(1):7-11.（in Chinese）

[29] [29] HUANG Hui,HUANG Yong,LI Shang-bin.Research on composite explosive with nano-aluminium[J].Chinese Journal of Explosives & Propellants,2002(2):1-3.（in Chinese）

[31] [31] CHEN Lang,ZHANG Shou-qi,ZHAO Yu-hua.Study of the metal acceleration capacities of aluminized explosives with spherical aluminum particles of different diameter[J].Explosion and Shock waves,1999,19(3):250-255.（in Chinese）

[32] [32] LIU D Y,CHEN L,WANG C,et al.Aluminum acceleration and reaction characteristics for aluminized CL-20-based mixed explosives[J].Propellants,Explosives,Pyrotechnics,2018,43:543-551.

[34] [34] DUAN Xiao-yu,GUO Xue-yong,JIAO Qing-jie,et al.Effect of aluminum size and content on explosion performance of aluminized explosives in confined space[J].Chinese Journal of Energetic Materials(Hanneng Cailiao),2017,25(6):472-478.（in Chinese）

[36] [36] DUAN Xiao-yu.Study on the properties of shock wave from aluminized explosives blast in air[D].Beijing:Beijing Institute of Technology,2017.（in Chinese）

[38] [38] WANG Ming-ye,HAN Zhi-wei,LI Xi,et al.Influence of aluminum particle size on explosion performance and thermal stability of thermobaric explosive[J].Chinese Journal of High Pressure Physics,2018,32(3):035201.（in Chinese）

[40] [40] CHEN Kun.Effect of aluminum powder and oxidizing agent on the safety and energy releasing characteristics of HMX-based thermobaric explosives[D].Nanjing:Nanjing University of Science & Technology,2020.（in Chinese）

[42] [42] HUANG Kai-shu,PENG Hong-zheng,YANG Feng-you,et al.Study on shock wave overpressure and shock wave sensitivity of explosives containing nano aluminum powder[C]//Proceedings of the Symposium on Energetic Materials and Insensitive Ammunition Technology,2014:339-341.（in Chinese）

[44] [44] FENG Xue-song,FENG Xiao-jun,ZHAO Juan,et al.Effect of content and particle size of aluminum powder on the air blast property of HMX-based explosive[J].Explosive Materials,2018,47(4):10-15.（in Chinese）

[45] [45] SIMICˊ D M,DIMITRIJEVICˊ I D,SIROVATKA I S,et al.Thermobaric performance of cast PBX with nanosized aluminium[C]//ICT,2018：P131/1-12.

[47] [47] FANG Wei,ZHAO Shengxiang,ZHANG Qi,et al.Explosion characteristics of fuelair explosive containing micro/nanoaluminum powder[J].Chinese Journal of Energetic Materials(Hanneng Cailiao),2021,29(10):971-976.

[49] [49] FENG Xue-song ,TIAN Xuan,FENG Bo,et al.Effect of nano-aluminum on the underwater detonation energy of explosive[J].Explosive Materials,2016,45(3):1-4.（in Chinese）

[51] [51] NIU Guo-tao,WANG Shu-ping,JIN Da-yong,et al.Innuence of the nanor-aluminium on underwater energy of RDX-based pressed explosive[J].Chinese Journal of Explosives & Propellants,2015,38(1):64-68.（in Chinese）

[53] [53] NIU Guo-tao,FENG Xue-song,CAO Shao-ting,et al.Underwater explosion test on aluminized explosive with nano-aluminum[J].Initiators & Pyrotechnics,2013(4):49-52.（in Chinese）

[54] [54] HU H W,CHEN L,YAN J J,et al.Effect of aluminum powder on underwater explosion performance of CL-20 based explosives[J].Propellants Explos.Pyrotech.2019,44,837-843.

[56] [56] HUANG Kai-shu,WAN Li-lun,CHEN Yang,et al.Analysis of detonation performance of explosives containing metal powder[J].Ordnance Industry Automation,2020,39(9):94-96.（in Chinese）

[57] [57] ELBASUNEY S,ZAKY M G,RADWAN M,et al.Aluminium nanoparticles:the potentials of metalized explosives with combined destructive effect(combustion/detonation)[J].Materials Science and Engineering ,2020(975):012009.

[58] [58] ELERT M,FURNISH M D,HOLMES R C,et al.Shock compression of condensed matter[M].US:American Institute of Physics,2007.

[59] [59] LIU D Y,CHEN L,WANG C,et al.Detonation reaction characteristics for CL-20 and CL-20-based aluminized mixed explosives[J].Cent Eur J Energ Mater,2017,14(3):573-588.

[60] [60] LIU D Y,CHEN L,WANG C,et al.Detonation reaction characteristics for CL-20 and CL-20-based aluminized mixed explosives[C]//ICT,2017：P114／1-12.

[61] [61] LIU D Y,CHEN L,WANG C,et al.Effects of aluminum content and particle size on detonation reaction zone length and aluminum reaction time in CL-20-based explosives[C]//ICT,2016：P84／1-11.

[63] [63] FENG Xue-song,YAO Li-na,ZHAO Sheng-xiang,et al.Influence of preparation method on mechanical sensitivity of nanometer aluminum containing explosive[J].Initiators & Pyrotechnics,2013(2):33-35.（in Chinese）

[64] [64] DONG J,WANG W L,WANG X F,et al.Effects of nano aluminum powder on the mechanical sensitivity of RDX-based explosives[J].Nanomaterials,2021,11:2182.

[66] [66] HU Ying-xin.Influence of nano-aluminum powders on HMX explosive performance[D].Taiyuan:North University of China,2016.（in Chinese）

[67] [67] JI X B,QIN W Z,LI X D,et al.Initiation of CL-20 doped with aluminum nanoparticles by using a laser pulse through an optical fiber[J].Propellants,Explosives,Pyrotechnics,2018(43):1210-1214.

[68] [68] JI X B,TANG D,LI Y,et al.Influence of aluminum nanoparticles and binders on the laser initiation of cyclotrimethylenetrinitramine[J].Optics and Laser Technology,2019(120):105677.

[70] [70] LIANG Lei,WANG Jing-yu,DONG Jun,et al.Effects of nano-Al powder on the thermal decomposition catalytic performance of nitroamine explosives[J].Chinese Journal of Explosives & Propellants,2009,32(6):75-78.

[72] [72] ZHANG Jun.Effects of nano-aluminum on the thermal decomposition kinetics of HMX[D].Taiyuan:North University of China,2016.（in Chinese）

[74] [74] LI Xin,ZHAO Feng-qi,LUO Yang,et al.Solid phase chemical reduction synthesis and characterization of aluminum nanopowders and the effect on the thermal decomposition of ADN[J].Rare Metal Materials and Engineering,2015,44(6):1474-1478.（in Chinese）

[76] [76] ZHONG Kai,ZHANG Chaoyang.Oxidation and combustion of aluminum nanoparticles in different explosive environments by molecular dynamics simulation[J].Chinese Journal of Energetic Materials(Hanneng Cailiao) ,2023,31(1):48-60.（in Chinese）

[77] [77] HAO W Z,NIU L L,GOU R J,et al.Influence of Al and Al2O3 nanoparticles on the thermal decay of 1,3,5-triazinane(RDX):Reactive molecular dynamics simulations[J].The Journal of Physical Chemistry,C Nanomaterials and interfaces,2019,123(22):14067-14080.

[78] [78] HAO W Z,LI G,NIU L L,et al.Molecular dynamics insight into the evolution of Al nanoparticles in the thermal decomposition of energetic materials[J].The Journal of Physical Chemistry,C Nanomaterials and interfaces,2020,124:10783-10792.

[80] [80] HAO Wei-zhe.Influence of Al and Al2O3 Nanoparticles on the thermal decay of energetic materials:reactive molecular dynamics simulations[D].Nanjing:Nanjing University of Science & Technology,2020.（in Chinese）

[81] [81] ZHU Y L,HUANG G H,REN H,et al.Influence of aluminum particle size on the thermal decomposition of RDX[J].Journal of Energetic Materials,2013,31(3):178-191.

[83] [83] LI Xiao-xia,HU Shuang-qi,CAO xiong,et al.The effect of aluminum powder particles and content on the thermal decomposition and combustion process of Al/DAP-4[J].Chinese Journal of Explosives & Propellants,2023,46(1):62-68.（in Chinese）

[84] [84] ZHOU J,DING L,AN J,et al.Study on the thermal behaviors of nano-Al based fuel air explosive[J].Journal of Thermal Analysis and Calorimetry,2017(130):1111-1116.

[85] [85] Mao X X,LI Y C,LI Y F,et al.Thermal properties of decomposition and explosion for CL-20 and CL-20/n-Al[J].Journal of Energetic Materials(hanneng cailiao),2020,38(1):98 110.

[86] [86] MEI Z,AN Q,ZHAO F Q,et al.Reactive molecular dynamics simulation of thermal decomposition for ano-aluminized explosives[J].Physical Chemistry Chemical Physics,2018(20):29341-29350.

[88] [88] NIU Guo-tao,CAO Shao-ting,NIU Lei,et al.Dispersibility and formability of explosives with nano-aluminum[J].Science Technology and Engineering,2021,21(19):8018-8022.

[90] [90] HU Xiu-li,XIAO Le-qin,ZHOU Weil-iang,et al.Research on the rheological properties of micro/nano aluminum/HTPB[C]//The 16th Annual Conference of the China Association for Science and Technology-Proceedings of the 9 Forum on the Development of Energy Containing Materials and Green Civil Explosive Industries,Kunming,2014：1-6.（in Chinese）

[92] [92] HU Xiu-li.Research on the properties of the high-energy nano／micro boron and aluminum based energetic composites[D].Nanjing:Nanjing University of Science & Technology,2016.（in Chinese）

[94] [94] SUN Lu,YAN Shi,JIAO Qing-jie.Effects of Nano-combustible Fuels on ε-CL-20 Crystal Transition[J].Acta Armamentarii,2017,38(S1):220-225.（in Chinese）

[96] [96] SHEN Fei,WANG Hui,SU Si-yu,Influence of micro/nano-scaled particle gradation on the Dn（k） relation of detonation wave front[J].Chinese Journal of Explosives & Propellants,2018,41(1):61-65.（in Chinese）

[97] [97] ZENG C C,YANG Z J,WEN Y S,et al.Performance optimization of core-shell HMX@(Al@GAP) aluminized explosives[J].Chemical Engineering Journal,2021(407):126360.