-
摘要最近几年,聚合物在弹药中的应用越来越广泛,其中比较典型的有聚叠氮类热塑性弹性体(GAPE)、硝化棉(NC)等在粘结剂中的应用。聚叠氮缩水甘油醚(GAP)作为新型的含能粘结剂,其优点在于氮含量高,热力学性能好,玻璃化转变温度低。然而在GAP的分子链中,链上较大的-CH2N3基团使主链分子间作用力小,使得抗拉强度低。硝化棉粘结剂在单基、双基和三基发射药中有广泛的应用,但由于其本身较高的玻璃化转变温度以及在低温下力学性能较差,限制了其发展和应用。本次实验利用复合材料增强原理,将硝化棉和GAP共混改性,制得不同质量比的GAPE/NC,探索共混物的性能。33503
- 上一篇:微波辐射下吡喃并[2',3'5,6]吡喃并[2,3-b]吡啶衍生物的合成
- 下一篇:Aspen Plus甲苯甲醇烷基化法年产30万吨对二甲苯车间设计
关键词 热塑性弹性体 聚叠氮缩水甘油醚 硝化棉 共混改性
毕业论文设计说明书外文摘要
Title Study on Synthesis of GAPE and NC toughening preparation Of composite polymer materials
Abstract
In recent years, polymer has been more widely used in the ammunition area, such as the use of Nitrocellulose(NC) and Gap-based Polyurethane Elastomer(GAPE) in the binder construction. Glycidyl Azide Polymer (GAP) is a new type of binder, the advantages of which consist of high nitrogen content, good thermodynamic performance and low glass transition temperature. However, as the large -CH2N3 groups in the GAP molecular chain reduce the intermolecular force of the major chain, which eventually leads to the low tensile strength of GAP. Nitrocellulose binder has been widely used in one-base, double-base and triple-base propellants, but the high glass transition temperature and poor mechanical properties at low temperature of NC binder hinder its development and application. Therefore, this project aims to create a series of GAPE/NC blends by mixing the NC and GAP with various specific quality ratios based on the composite material enhancement principle, and explore the performance of the blends.
Keywords Thermoplastic elastomer Glycidyl Azide Polymer Nitmceuldose Energetic polymer
目次
1 引言 1
1.1 粘结剂概述 1
1.2含能热塑性弹性体(ETPE) 1
1.3 GAP-ETPE研究现状 2
1.4 硝化棉的结构与性能 3
1.5 课题背景和研究内容 5
2 实验部分 7
2.1实验原理 7
2.2实验过程 7
2.3性能测试 9
3 结果与讨论 10
3.1 GAPE的结果与讨论 10
3.2 GAPE/NC共混物的结果讨论 13
结 论 20
致 谢 21
参考文献 22
1 引言
1.1 粘结剂概述
随军事现代化不断提升、航空航天高速发展,对推进剂的高能量、力学性能、工业工艺、储存稳定性、环境适应性等有更高的要求[1]。粘结剂是固体推进剂的核心组成部分,在某种意义上决定推进剂的能量性能和力学性能,高能量、高强度、低易损性和环境友好性(LOVA)逐渐成为现代粘结剂的发展趋势[2-3]。早期的LOVA发射药配方相对比较简单,在惰性粘结剂中添加含能物质,由此也带来一系列问题,比如惰性粘结剂会大大降低体系能量,影响发射药的性能,制约其发展前景。为满足现代化对发射药和推进剂的要求,对粘结剂提出了如下要求:第一,有良好的粘结性能,标准是能将粘结剂中的固体颗粒牢固粘结起来;第二,在燃烧时有较高的燃烧值,放热量高;第三,燃烧产物不含有毒物质,满足现代化对环境友好的要求;第四,在固化成型后有良好的物理机械性能,便于工业加工等[4]。