摘要本论文使用80μm和200μmAl/Ni两种厚度的纳米复合薄膜替代传统的烟火药剂作为热源制作了热电池并开展了一系列实验。实验用不同数量及两种厚度的纳米含能薄膜制作和装配了三单元及四单元电堆,并对其在530mA恒定电流下进行放电性能测试。根据实验得到的电压时间曲线计算得到热电池内阻随时间变化。
实验结果表明,用Al/Ni含能薄膜作为热源装配热电池的方案可行且有一定的优势。实验制作的热电池样机放电实验表明热电池峰值电压为5.72V,激活时间为0.24S,工作时间达44S,结果较为满意,且与传统热电池放电性能相比有一定优越性。21351
毕业论文关键词: Al/Ni纳米复合薄膜; 热电池; 放电; 热源
Abstract
This paper describes and discusses a series of experiments in which aluminum-nickel nanofoil materials were used as the heat source for thermal battery.Different numbers and different kinds of Al-Ni nanofoils (80μm and 200μm) was used as the heat source to build 3-cell and several 4-cell thermal batteries prototypes. Then these batteries were discharged at constant current of 530mA and monitored for their electrical performances.Their internal resistance was also determined from calculation.
The results were carefully compared and thoroughly discussed. And it came to the conclusion that use of nanofoil as a new source of heat in thermal batteries is feasible and advantageous— the rise time of the prototype was 0.24s,the highest voltage was 5.72v and its runtime was 44s,which was satifactory compared to the traditional pressed-pellet thermal batteries.
Keyword: Al/Ni nano film; thermal battery; discharge; heat source
目录
1 绪论 8
1.1 国内外研究现状 8
1.1.1 热电池的国内外研究现状 8
1.1.2 Al/Ni纳米复合薄膜的国内外研究现状 10
1.2 研究内容 12
2 Al/Ni纳米复合薄膜的制备 13
2.1 实验设备及材料 13
2.2 镀膜原理 13
2.3 镀膜工艺 15
3 TB-Al/Ni制备 17
3.1 原材料准备 17
3.1.1 薄膜准备 17
3.1.2 单体电池准备 20
3.1.3 集流片准备 20
3.1.4 盖体准备 21
3.1.5 壳体准备 22
3.1.6 引燃纸及缓冲片准备 22
3.2 组装工艺 23
4 TB-Al/Ni的放电性能测试 27
4.1 测试原理 27
4.2 仪器及测试过程 27
4.3 实验结果及数据分析 28
5 结论与展望 32
5.1 结论 32
5.2 展望 32
致 谢 34
参考文献35
1 绪论
1.1 国内外研究现状
1.1.1 热电池的国内外研究现状
1.1.2 Al/Ni纳米复合薄膜的国内外研究现状
1.2 研究内容
本文在学习热电池基本原理、热电池激活技术等相关技术、Al/Ni纳米复合薄膜的自蔓燃烧反应机理及磁控溅射镀膜技术的基础上,以Al/Ni纳米复合薄膜代替传统的烟火药剂作为热电池的热源制作热电池并对其放电性能表征。具体工作如下:
(1)使用磁控溅射镀膜机制备80μm和200μm两种规格Al/Ni纳米复合薄膜;
(2)电极材料、电解质及含能薄膜划片准备;
(3)对热电池进行放电性能测试,并对热电池的激活时间、放电电压进行评估; 基于Al/Ni纳米复合薄膜的微型热电池技术研究:http://www.youerw.com/huaxue/lunwen_13516.html