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复合材料学报 2005

与液氧相容聚合物基体材料

, PP. 108-113

王戈,李效东,曾竞成,李公义,唐云

Keywords: 环氧树脂,液氧,相容性,溴环氧,氰酸酯,咪唑,抗氧化,阻燃

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Abstract:

为改善环氧树脂与液氧的相容性,研究了环氧／溴环氧／氰酸酯树脂三元共固化体系,并探讨了2-乙基-4-甲基咪唑(2E4MZ)对于共固化体系的促进作用。实验发现,2E4MZ可以显著降低共固化体系在不同温度下的凝胶时间。采用傅立叶红外光谱跟踪固化过程,结果表明,无论在环氧基团过量还是氰酸酯基团过量情况下,2E4MZ均能够明显加快固化反应速度,同时增大固化产物中共聚产物的比例,提高反应的选择性。热分析、闪点和氧指数以及液氧冲击试验结果表明,2E4MZ促进的较低氰酸酯含量的共固化体系具有较好的抗氧化和阻燃性能,与液氧的相容性也得到较大幅度改善。采用咪唑促进这种相对简单有效的改性途径,可得到与液氧相容性较好的、综合性能理想、成本合理的环氧树脂体系。

References

[1]	Neil A G, Richard H, Michael M. Oxygen Compatibility Testing of Composite Materials . NTIS-N20010020209.Washington,DC:National Aeronautics and Space Administration,2000.
[2]	张起源. 液氧与材料相容性的安全问题 J]. 低温工程, 1982 (2) : 85-88. Zhang Qiyuan. Safety concerns about materials with liquid oxygen[J]. Cryogenic Engineering, 1982 (2) :85-88.
[3]	Robinson M J, Stoltzfus J M, Owens T N. Composite Material Compatibility with Liquid Oxygen and Gaseous Oxygen , AIAA-2001-1215. New York: AIAA, 2001.
[4]	NASA Marshell Space Flight Center. Composite Liquid Oxygen Tank Tests Successful EB/OL]. http: //std.msfc.nasa.gov/news / 02tank.html, 2001.
[5]	ASTM D-2512-95. Standard Test Method for Compatibility of Materials with Liquid Oxygen ( Impact Sensitivity Threshold and Pass-Fail Techniques ) S].
[6]	孙曼灵. 环氧树脂应用原理与技术 M]. 北京:机械工业出版社, 2002. 111-242.
[7]	欧育湘,陈宇,王筱梅.阻燃高分子材料 M].北京:国防工业出版社,2001. 5-10.
[8]	Kirn E P, Graf N A, Ely K W. Cyanate Ester Composites for Oxygen Containment P ] . US Patent, 6, 334, 589. 2002-01-01.
[9]	陈平,程子霞,朱兴松,雷清泉. 环氧树脂与氰酸酯共固化产物性能的研究 J]. 复合材料学报, 2001, 18 ( 3 ) : 10-132. Chen Ping, Cheng Zixia, Zhu Xingsong, Lei Qingquan. The study on the properties of epoxy and cyanate ester co-curing compounds[J]. Acta Materiae Compositae Sinica, 2001, 18 ( 3 ) : 10-132.
[10]	陈祥宝.高性能树脂基体 M].北京:化学工业出版社,1999.117-123.
[11]	NSAS-STD-6001. Flammability, Order, Offgassing and Com- patibility Requirements and Test Procedures for Materials in Environments that Support Combustion[S].
[12]	Air Force Specification Bulletin 527. Liquid Oxygen Compatibility Impact Sensitivity Test Method[S].

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