摘要本文主要采用高能湿法球磨法与溶剂提纯法相结合的方法,使用纳米级的镁粉对硼粉进行球磨处理,制备成复合材料。研究了不同的硼镁配比对硼粉燃烧性能的影响。首先,按照硼镁(6:1,8:1,10:1)三种配比称量金属粉末,将其分别加入球磨罐中,以正己烷为溶剂,球磨处理3小时后离心烘干,制得硼-镁复合材料,然后,对上述三份样品进行了TG-DSC的热分析表征,并与硼和单纯球磨处理的硼做对比,以分析其热性能,最后,将三份样品分别配制成不同比例的B/BaCrO4延期药,测试并比较其燃烧活性。22965
实验数据表明,制备硼-镁复合材料,硼镁配比为10:1时效果最好,其氧化增重比原样硼粉提高13.44%,放热量提高31.92%,燃速比纯硼粉延期药的燃速提高99.36%。
关键词: 硼粉,热分析,纳米镁粉,湿法球磨,燃速
毕业设计说明书(毕业论文)外文摘要
Abstract
This article mainly combines the high-energy ball milling and wet solvent purification method , using nano scale powder by ball milling treatment on boron powder to prepar of composite material.The paper discuss the effects of different boron magnesium ratios on the combustion properties of boron powder.First, in accordance with boron and magnesium (6:1,8:1,10:1) ratio weighed three metal powders, which were added to the ball mill jar, n-hexane as a solvent, ball handling centrifugal drying three hours later, obtained boron - magnesium composite material.Then, the above three samples were characterized TG-DSC thermal analysis, and boron and boron to make a simple comparison of the milling process, in order to analyze the thermal performance.Finally, the samples were formulated in three different proportions B/BaCrO4 extended drug tested and compared the activity of combustion.
In summary, when preparing boron - magnesium composite material, boron and magnesium ratio of 10:1 works best when the oxidation weight gain increased 13.44% than as boron powder, put the heat to improve 31.92%, fuel ratio of pure boron powder postponed burning rate of the drug improved 99.36%.
Keyword:Boron,Thermal analysis,The nanoscale Magnesium,The Wet Ball Milling,Burning Rate.
目 录
毕业设计说明书(论文)中文摘要 I
毕业设计说明书(论文)外文摘要 II
1 绪论 1
1.1 硼的表面改性方法 2
1.2 硼的复合材料选择 3
1.3 硼镁复合工艺介绍 4
1.3.1 镁粉的性能简介 5
1.3.1 镁粉在燃料中的应用 6
1.4 湿法球磨原理及影响因素 7
1.5 本论文主要研究工作 9
2 硼镁复合材料的制备工艺及性能测试 9
2.1 实验药品及仪器 10
2.2 实验流程 10
2.2.1 样品准备及预处理 10
2.2.2 热分析方法:TG-DSC表征 11
2.2.3 燃烧活性的测定 12
3 硼镁复合材料的TG-DSC表征 15
3.1 硼镁6:1的TG-DSC表征 15
3.2 硼镁8:1的TG-DSC表征 16
3.3 硼镁10:1的TG-DSC表征 17
3.4 本章小结 18
4 硼镁复合材料燃烧活性的测试 19
4.1 延期药燃速分析 19
4.2 本章小结 20
结 论 22
致 谢 23
参考文献24
1 绪论
单质硼为黑色或深棕色粉末(如图1.1),在空气中氧化时由于三氧化二硼膜的形成而阻碍内部硼继续氧化。常温时能与氟反应,不受盐酸和氢氟酸水溶液的腐蚀。硼不溶于水,粉末状的硼能溶于沸硝酸和硫酸,以及大多数熔融的金属如铜、铁、锰、铝和钙。硼在常温时为弱电导体,硼的熔点为2076℃,沸点为3927℃,而在高温时导电良好[1]。 硼-镁复合材料的制备及性能研究:http://www.youerw.com/huaxue/lunwen_15841.html