摘要为满足高能、高燃速、低特征信号的新型推进剂中对含能粘合剂要求,本文通过半预聚法合成了以3,3-双(叠氮甲基)环氧丁烷-四氢呋喃共聚醚(BAMO-THF)为软段,4,4'一二苯基甲烷二异氰酸酯(MDI)及一缩二乙二醇(DEG)为硬段的叠氮型含能热塑性弹性体(PBT-TPE),并通过傅里叶变换红外光谱(FTIR)对制备的PBT-TPE的结构进行表征,通过万能电子拉力机进行力学性能测试,研究了不同R值和不同扩链剂含量对材料力学性能的影响,结果表明当R值为1.05,扩链剂含量为30%时,弹性体的拉伸强度达3.68MPa,断裂伸长率达到595.7%。通过热重分析(TG)研究了PBT-TPE的热稳定性。采用动态热力学性能(DMA)测定PBT-TPE的玻璃化转变温度和储能模量随温度的变化关系,得知该弹性体在50℃时,储能模量达到2.379MPa,玻璃化转变温度Tg为-31.6℃。25842
毕业论文关键词 推进剂 3,3-双(叠氮甲基)环氧丁烷-四氢呋喃共聚醚 热塑性聚氨酯弹性体 含能粘合剂
Title The design and preparation of energetic thermoplastic elastomer based on BAMO-THF azide polyether
Abstract
In order to meet the requirements of energetic binder in new type propellant, which is high-powered,high-burning rate and low-signal, azide thermoplastic elastomer (PBT-TPE) was made through quasi prepolymerization. The PBT-TPE is synhtesized by BAMO-THF (acted as the soft segment) and MDI, DEG (acted as the hard segments). The polyurethane elastomer was characterized by Fourier transform infrared spectroscopy (FTIR). It was also studied by Universal electronic tensile machine for the influence of mechanical property made by different R values and different contents of chain extender.The statistics shows that when R equal to 1.05 and content of DEG is 30%,tensile strength achieve to 3.68MPa and ultimate elongation is 595.7%.
Thermogravimetric analysis was used to study PBT-TPE’s thermal stability. The dynamic thermomechanical analysis was used to measure the relationship between polyurethane’s glass transition temperature and storage modulus with temperature.The storage modulus of thermoplastic elastomer was 2.397MPa at 50℃,
and glass transition temperature is -31.6℃.
Keywords Propellant, BAMO-THF, Thermoplastic polyurethane elastomer,Energetic binder
目 次
1. 引言 1
1.1 推进剂对粘合剂体系的要求 1
1.2 粘合剂对推进剂体系的影响 1
1.3 含能热塑性弹性体种类及性能 2
1.4 含能热塑性弹性体的制备方法 3
1.5 国内外研究进展 4
1.6 论文研究目的和内容 5
1.6.1 研究目的 5
1.6.2 研究内容 5
2 实验部分 7
2.1 含能热塑性弹性体的分子结构设计 7
2.1.1 软段分子结构选择 7
2.1.2 硬段分子结构(二异氰酸酯和扩链剂)的选择 7
2.2 PBT基聚氨酯弹性体的合成 8
2.2.1 实验原料 8
2.2.2 PBT基聚氨酯弹性体的合成工艺 8
2.2.3 PBT基聚氨酯弹性体反应方程式 9
2.3 PBT基聚氨酯弹性体的结构表征 10
2.3.1 傅立叶变换红外光谱(FTIR) 10
2.3.2 力学性能测试 10
2.3.3 热重分析(TG) 10
2.3.4 动态热机械分析(DMA) 10
3 结果与讨论 11
3.1 PBT基聚氨酯弹性体的傅里叶红外光谱 11
3.2 PBT基聚氨酯弹性体的力学性能 11
3.2.1 扩链剂对PBT聚氨酯弹性体力学性能的影响 11
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