摘要
通过两步法实现了1,4双-(1,4二-氨基)苯氧基苯(TPEQ),4,4二-氨基二苯醚(ODA)和4,4′-六氟亚异丙基-邻苯二甲酸酐(6FDA)的三元共聚,所得共聚物(PAA)经高温法或化学法脱水环化得对应的可溶性含氟聚酰亚胺(PI)。通过粘度,DSC,TG和1H NMR等分析数据比较了其综合性能。对PI的研究结果表明,化学法的粘度一般高于高温法,所有的PI均具有良好的溶解性和耐热性;不仅溶于DMF,还能很好的溶于CHC l3和THF,有效地改善了其加工性能;Tg>227℃,热损失5%的温度多在488℃以上,m.p.>550℃。其中PI3具有最好的综合性能,粘度1.065 dL.g-1,Tg 241.7℃,热损失5%的温度488℃,m.p.557.9℃,拉伸强度108.81MPa。
A ternary-copolymer (PAA) , 4-bis ( 1,4-diamino ) phenoxyl-benzene ] (4,4'-hexafluoroisoprorylidene-diphthalic anhydride) - [ 1, - (4,4-diaminodiphenylether) ( 6FDA - TPEQ - ODA), was synthesized by a two-step reaction. PAA was dehydrated at high temperature or by chemical method to obtain a soluble fluorinated polyimide (PI). The properties of PI prepared by the two method was compared by viscosity, solubility, FF-IR, DSC, TG and ^1H NMR. The results showed that the viscosity of PI by chemical method was higher than that at high temperature, and all PI were of prefera- ble solubility and heat-resistant. PI was soluble in common solvents such as DMF, CHCl3 and THF. PI exhibited good thermostability with the glass transition temperatures of higher than 227 ℃, 5% weight losses temperature of higher than 488 ℃and melting points of higher than 550℃. PI^3 exhabited the best performances of viscosity of 1. 065 dL ·g^-1, the glass transition temperature of 241.7 ℃, 5% weight loss temperature of 488 ℃, melting point of 557.9 ℃ and stress-strain intensity of 108.81 MPa.
出处
《合成化学》
CAS
CSCD
2007年第2期150-153,共4页
Chinese Journal of Synthetic Chemistry
基金
国家自然科学基金资助项目(10576017)
