纳米氧化物包覆改性的硼燃料的制备与性能
关键词 硼粉 包覆 纳米材料
毕业论文设计说明书(论文)外文摘要
Title The Preparation and Properties of Modified Boron Coated by Nano-Oxide
Abstract
With the rapid development of defence technology, for improving the missile range, the missile flight speed and maneuverability, our country increasingly shows interest, thus leading to have higher and higher request on the energy of the propellant. Adding high energy combustion agent is the main way to improve the energy-rich propellant, so fuel rich propellant often join high-energy combustion agent, such as boron particle, etc. Boron is considered to be one of the most potential fuel-rich solid propellant fuel. But, in the practical application, there are some problems, such as the difficulty of fire, low burning rate, difficult to prepare, etc. This paper mainly studies the problem of modified boron. Respectively by chemical deposition method and physical milling method coating boron, use chemical method to the preparation of nano-CuO, nano-SnO2, nano-Bi2O3, nano-Ag and nano-Cu cladding of boron, and use physical method to preparing Fe2O3, CuO, CoO, Co3O4 coating boron. The results of the SEM show that the effect of nano-Ag coating is the best. Combustion performance testing indicates that the burning rate of mass increase by 234% with nano-SnO2 and the burning rate of height increase by 148% with nano-Cu and the highest temperature is 1441.1oC of the CuO prepared by physical method.
Keywords Boron Coated Nanomaterials
目 次
1 绪论 1
1.1 研究背景 1
1.2 研究现状 1
1.2.1 贫氧推进剂 1
1.2.2 含硼贫氧推进剂 2
1.2.3 硼元素的特性 2
1.2.4 硼的燃烧 4
1.2.5 硼的相关改性研究 4
1.2.6 纳米高热剂 5
1.3 本文研究内容 5
2 纳米氧化物及纳米金属的制备及其对硼的包覆 6
2.1 纳米材料及其制备 7
2.1.1 纳米材料 7
2.1.2 纳米材料的制备 7
2.2 纳米氧化铜的制备和包覆 8
2.2.1 化学法制备纳米氧化铜及其对硼的包覆 8
2.2.2 物理法进行纳米氧化铜对硼的包覆 9
2.3 纳米氧化锡的制备和包覆 9
2.3.1 化学法制备纳米氧化锡及其对硼的包覆 10
2.4 纳米氧化铋的制备和包覆 10