[1] 李芳, 张为华, 张炜.水反应金属燃料能量特性分析[J]. 固体火箭技术, 2005, 28(4): 256-259. LI Fang, ZHANG Wei-hua, ZHANG Wei.Analysis on energy characteristics of hydro-reactive metal fuel[J]. Journal of Solid Rocket Technology, 2005, 28(4): 256-259. (in Chinese) [2] Miller T F, Walter J L, Kiely D H. A next-generation AUV energy system based on aluminum-seawater combustion[C]∥Proceedings of the 2002 Workshop on Autonomous Underwater Vehicles. San Antonio, US: IEEE, 2002: 111-119. [3] 胡凡, 张为华, 蒋振宇. 金属燃料/水冲压发动机构型实验[J]. 推进技术, 2012, 33(1): 125-130. HU Fan, ZHANG Wei-hua, JIANG Zhen-yu. Configuration experiment of metal fuel/water ramjet[J]. Journal of Propulsion Technology, 2012, 33(1): 125-130. (in Chinese) [4] 邹美帅, 杨荣杰, 郭晓燕, 等. Al/H2O 推进剂的研究进展[J]. 含能材料, 2007, 15(4): 421-424. ZOU Mei-Shuai, YANG Rong-jie, GUO Xiao-yan, et al. Advances inaluminum/water propellant[J]. Chinese Journal of Energetic Material, 2007, 15(4): 421-424. (in Chinese) [5] 周星, 张炜, 李是良. 镁粉的高温水反应特性研究[J]. 固体火箭技术, 2009, 32(3): 302-305. ZHOU Xing, ZHANG We, LI Shi-liang. Characteristics of reaction between magnesium and water at high temperature[J]. Journal of Solid Rocket Technology, 2009, 32(3): 302-305. (in Chinese) [6] 沈品, 刘虎, 朱云峰, 等. 镁基材料水解制氢研究进展[J]. 电源技术, 2011, 35(7): 876-879. SHEN Pin, LIU Hu, ZHU Yun-feng, et al. Recent advances in hydrogen production by hydrolysis of magnesium- based materials[J]. Chinese Journal of Power Source, 2011, 35(7): 876-879. (in Chinese) [7] Lukashev R V, Yakovleva N A, Klyamkin S N, et al. Effect of mechanical activation on the reaction of magnesium hydride with water[J]. Russian Journal of Inorganic Chemistry, 2008, 53(3): 343-349. [8] Ouyang L Z, Xu Y J, Dong H W, et al.Production of hydrogen via hydrolysis of hydrides in Mg-La system[J]. International Journal of Hydrogen Energy, 2009, 34(24): 9671-9676. [9] Foley T J, Johnson C E, Higa K T. Inhibition ofoxide formation on aluminum nanoparticles by transition metal coating[J]. Chemistry of Materials, 2005, 17(16): 4086-4091. [10] Vasilev A V, Gorbunov V V, Shidlovskii A A.The effect of certain additives on critical diameter and combustion rates of mixtures of aluminum with gelled water[R]. Washington DC: Defense Technical Information Center, 1974. [11] Grosjean M H, Zidoune M, Roué L. Effect of ball milling on the corrosion resistance of magnesium in aqueous media[J]. Electrochimica, 2004, 49(15): 2461-2470. [12] Fan M Q, Xu F, Sun L X. Studies on hydrogen generation characteristics of hydrolysis of the ball milling Al-based materials in pure water[J]. Hydrogen Energy, 2007, 32: 2809-2815. [13] Grosjean M H, Zidoune M, Huot J Y. Hydrogen generation via alcoholysis reaction using ball-milled Mg-based materials[J]. Hydrogen Energy, 2006, 31(9): 1159-1163. [14] Grosjean M H, Zidoune M, Roué L. Hydrogen production via hydrolysis reaction from ball-milled Mg-based materials[J]. Hydrogen Energy, 2006, 31(1): 109-119. [15] Barkhordarian G, Klassen T, Bormann R. Kinetic investigation of the effect of milling time on the hydrogen sorption reaction of magnesium catalyzed with different Nb2O5 contents[J]. Journal of Alloys and Compounds, 2006, 407(1):249-255. [16] Zou M S, Guo X Y, Huang H T. Preparation and characterization of hydro- reactive Mg-Al mechanical alloy material for hydrogen production in seawater[J]. Journal of Power Source, 2012, 219:60-64. [17] 高明, 郭晓燕, 邹美帅, 等. 镁/铝合金水反应金属燃料推进剂的燃烧性能[J]. 火炸药学报, 2015, 38(2): 75-80. GAO Ming, GUO Xiao-yan, ZOU Mei-shuai, et al. Combustion performances of Mg-Al alloy hydro-reactive metal fuel propellant[J]. Chinese Journal of Explosives & Propellants, 2015, 38(2): 75-80. (in Chinese) [18] 黄海涛. 高能镁基水反应金属燃料推进剂研究[D]. 北京:北京理工大学, 2015. HUANG Hai-tao. A study on high energy of Mg-based hydro-reactive metal fuel propellant[D]. Beijing:Beijing Institute of Technology, 2015. (in Chinese) [19] Gao M, Guo X Y, Zou M S, et al. Studies on combustion of aluminum-magnesium alloy hydro-reactive metal fuel[J]. Tuijin Jishu/Journal of Propulsion Technology, 2015, 36(4): 629-634. [20] Kravchenko O V, Semenenko K N, Bulychev B M, et al. Activation of aluminum metal and its reaction with water[J]. Journal of Alloys & Compounds, 2005, 397(S1/S2): 58-62. [21] 李振亚, 易玲, 杨林, 等. 含镓/锡的铝合金在碱性溶液中的活化机理[J]. 电化学, 2001, 7(3): 316-320. LI Zhen-ya,YI Ling, YANG Lin, et al. Activation mechanism of aluminum alloy containing Ga/Sn in alkaline solution[J]. Electrochemistry, 2001, 7(3): 316-320. (in Chinese) [22] Zou M S, Yang R J, Guo X Y. The preparation of Mg-based hydro-reactive materials and their reactive properties in seawater[J]. Hydrogen Energy, 2011, 36(11): 6478-6483. [23] Zhang S S, Dreizin E L. Reaction interface for heterogeneous oxidation of aluminum powders[J]. The Journal of Physical Chemistry C, 2013, 117(27): 14025-14031. [24] Huang H T, Zou M S, Guo X Y, et al. Analysis of the aluminum reaction efficiency in a hydro-reactive fuel propellant used for a water ramjet[J]. Combustion, Explosion and Shock Waves, 2013, 49(5): 541-547. [25] Zhang D L. Processing of advanced materials using high-energy mechanical milling[J]. Progress in Materials Science, 2004, 49(S3/S4): 537-560. [26] Skrovan J, Alfantazi A, Troczynski T. Enhancing aluminum corrosion in water[J]. Journal of Applied Electrochemistry, 2009, 39(10): 1695-1702. |