«上一篇/Previous Article|本期目录/Table of Contents|下一篇/Next Article»

Ni自支撑纳米含能薄膜制备及在热电池中的应用()

分享到：

《爆破器材》[ISSN:1001-8352/CN:32-1163/TJ]

卷:: 44
期数:: 2015年05

页码:: 18-22

栏目:: 基础理论

出版日期:: 2015-09-30

文章信息/Info

Title:: Preparation of Al/Ni Self-supporting Energetic Nanofilms and Its Application in the Thermal Battery

文章编号:: 4939

作者:: 程龙^①; 李杰^①; 官震^①; 余福山^②; 朱朋^①; 叶迎华^① ; 李永坚^③; ①南京理工大学化工学院（江苏南京，210094）
②北方特种能源集团西安庆华公司（陕西西安，710025）
③山西江阳化工有限公司（山西江阳，030043）

Author(s):: CHENG Long^①; LI Jie^①; GUAN Zhen^①; YU Fushan^②; ZHU Peng^①; YE Yinghua^①; LI Yongjian^③; ①School of Chemical Engineering, Nanjing University of Science and Technology ( Jiangsu Nanjing, 210094)
②Xian Qinghua Company, North Special Energy Group Co., Ltd.（Shaanxi Xian,710025）
③Shanxi Jiangyang Chemical Co.,Ltd.(Shanxi Jiangyang,030043)

关键词:: Al/Ni自支撑纳米含能薄膜; 热电池; 加热剂; 末端加热

Keywords:: Al/Ni self-supporting energetic nanofilms; thermal battery; heating agent; end-heating

分类号:: TJ45；TN37

DOI:: 10.3969/j.issn.1001-8352.2015.05.005

文献标志码:: A

摘要:: 采用真空磁控溅射镀膜和光刻技术制备出成膜质量良好的Al/Ni自支撑纳米含能薄膜，并将其应用于热电池中，替代传统热电池中的锆加热剂作为热电池的热源组件。结果表明：采用Al/Ni自支撑纳米含能薄膜作为热电池中的加热剂材料能够提升热电池性能；利用末端加热工艺可有效减少热电池的热损失；在不同电流密度下激发，激活时间与输出电流密度成正比，工作时间和峰值电压与输出电流密度成反比。

Abstract:: The Al/Ni self-supporting energetic nanofilms has been prepared by the vacuum magnetron sputtering coating and photolithographic technology and applied to thermal battery aiming at substituting for the conventional zirconium heating agent. Results show that the Al/Ni self-supporting energetic nanofilms used as the heating agent materials can improve the performance of the thermal battery, and effectively reduce the heat loss with the end-heating. Under the excitation of the different current densities, the output current densities is proportional to the activation time, while is inversely proportional to both the working time and peak voltage.

参考文献/References:

［1］谭俊，杨红军，郭文才.纳米多层复合镀层的制备及其应用研究［J］.材料导报，2005，19(增刊2)：191-196.
Tan Jun,Yang Hongjun,Guo Wencai.Progress in application and electrodeposition of nanomutilayer of composite coating［J］.Material Review ，2005，19(suppl 2)：191-196.
［2］Qiu Xiaotun，Zhu Jie，Oiler J，et al．Localized paryleneC bonding with reactive multilayer foils［J］．Journal of Physics D:Applied Physics，2009，42(18)：185411185416(6)．
［3］Adams D P, Rodriguez M A, McDonald J P, et al. Reactive Ni/Ti nanolaminates ［J］. Journal of Applied Physics, 2009, 106(9):093505.
［4］Swiston A J, Hufnagel T C, Weihs T P. Joining bulk metallic glass using reactive multilayer foils［J］. Scripta Materialia, 2003, 48(12):1575-1580.
［5］Barbee Jr T W, Weihs T P. Ignitable heterogeneous stratified structure for the propagation of an internal exothermic chemical reaction along an expanding wavefront and method of making same:US,5538795［P］.1996-07-23. 
［6］Mann A B, Gavens A J, Reiss M E, et al. Modeling and characterizing the propagation velocity of exothermic reactions in multilayer foils［J］. Journal of Applied Physics, 1997, 82(3): 1178-1188.
［7］Gavens A J,Van Heerden D, Mann A B, et al. Effect of intermixing on selfpropagating exothermic reactions in Al/Ni nanolaminatefoils［J］. Journal of Applied Physics, 1999, 87(3): 1255-1263.
［8］陆瑞生，刘效疆．热电池［M］．北京：国防工业出版社，2005．
［9］王传东．热电池发展综述［J］.电源技术，2013，137(11)：2077-2079.
Wang Chuandong. Development of thermal battery［J］.Chinese Journal of Power Sources，2013，137(11)：2077-2079.
［10］刘胜洋，高虹，孙丽娜.热电池电极材料的研究现状及展望［J］.节能，2010(11)：17-20.
Liu Shengyang, Gao Hong, Sun Lina. Present situation and development of electrode materials for thermal battery［J］.Energy Conservation, 2010(11)：17-20.
［11］Fischer S H, Grubelich M C. Theoretical energy release of thermites, intermetallics, combustible metals［C］//Proceedings of 24th Internatianal Pyrotechnics Seminar. Monterey, CA, 1998.

备注/Memo

备注/Memo:: 收稿日期：2015-03-04
基金项目：总装预研基金（9140A0508XXBQ02074）
作者简介：程龙（1988~），男，硕士研究生，主要从事Al/Ni薄膜在热电池中的应用的研究。E-mail：chenglong_880708@163.com
通信作者：叶迎华（1962~ ），女，博导，教授，主要从事先进火工品技术研究。E-mail：yyinghua@njust.edu.cn

常用功能

工具/Tools

统计/Statistics

摘要浏览/Viewed863
全文下载/Downloads425
评论/Comments

更新日期/Last Update: 2015-09-29