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101.
液晶聚酯与环氧嵌段共聚物的合成及表征 总被引:5,自引:0,他引:5
近年来 ,人们利用高分子液晶作为热固性环氧树脂的改性剂 ,不仅可以提高环氧树脂的韧性和强度 ,而且可以改善其热性能 ,为制备高性能的环氧树脂提供了一条新的途径[1,2 ] .目前报道所使用的液晶聚合物大多为液晶聚酯[3 ] 或液晶性聚氨酯[4] ,这些液晶聚合物与环氧树脂由于存在相容性不好的问题 ,给其实际应用带来了困难 .为了改善二者的相容性 ,本文采用溶液法合成了末端带有反应活性基团的聚酯型液晶聚合物 ,将它再与双酚A环氧预聚物反应 ,制得了高分子液晶环氧嵌段共聚物 ,其合成路线如下 :2HOCOOCH3+ HO(CH2 ) 6 OH H… 相似文献
102.
聚氯乙烯/线性低密度聚乙烯共混体系的相容性 总被引:5,自引:0,他引:5
用动态力学分析(DMA)和傅利叶变换红外光谱(FTIR)研究了氢化聚丁二烯-b-聚甲基丙烯酸甲酯(HPBD-b-PMMA)共聚物增容剂对聚氯乙烯(PVC)与线性低密度聚乙烯(LLDPE)共混体系的增容作用.增容剂使共混物中两相的玻璃化温度发生变化,说明其相容性增加.FTIR的结果表明,增容剂中羰基与PVC的α氢形成氢键,使CO,H─C及C─Cl的振动频率变化,峰形加宽. 相似文献
103.
104.
A series of ethylene-norbornene copolymers were synthesised using VO (OEt) Cl_2/Al_2Et_3Cl_3 catalytic system and their structure was characterized by ~1H-NMR, ~1H-~1HCOSY NMR and ~(13)C-NMR. Assignments of NMR spectra were given and discussed indetail. 相似文献
105.
The emeraldine base form of polyaniline (PANI) can be doped by a photo-induceddoping method. In this method a copolymer of vinylidene chloride and methyl acrylate(VCMAC) was used as photo acid generator which can release proton when it is exposedto ultraviolet light (λ= 254 nm). The structure of PANI-VCMAC system before and afterirradiation was characterized by elemental analysis, IR, XPS, and SEM images. Resultsobtained indicate that the photo-induced doping characteristics, such as doping positionand type of charge carriers, are similar to that of PANI doped with HCl. The poor room-temperature conductivity (~10~(-5)S/cm) of PANI-VCMAC system after irradiation maybe due to low doping degree (~pH= 3) and the difference in morphology as compared withPANI-HCl film. 相似文献
106.
107.
制备了不同摩尔比的甲基丙烯酸-磷脂酰乙醇甲基丙烯酰胺共聚物,研究了这种共聚物在水面的表面压力(π)-分子面积(A)曲线、共聚物制成的MOS LB膜的电容(C)-电压(V)特性及此LB膜的相变温度。 相似文献
108.
用稀土化合物改性的钛系载体催化剂(SN催化剂)进行苯乙烯和丙烯顺序嵌段共聚合(Sequentialblockcopolymerization)的研究.考察了苯乙烯预聚时间、单体比、外加给电子体(EB)、烷基铝浓度、催化剂浓度和聚合温度等条件对共聚合的影响.发现外加酯(EB)降低了共聚合反应催化活性,在EB/Ti摩尔比为5范围内,外酯有助于提高嵌段共聚物(iPS—b—iPP)中PS段和PP段的等规度及增加苯乙烯链节含量.SN型催化剂对苯乙烯一丙烯嵌段共聚合有较高的催化活性,催化效率在100g聚合物/g-Ti以上.共聚物通过溶剂革取分级除去均聚物后,所得嵌段共聚物中苯乙烯链节含量可在15~85mol%之间调节.其结构表征续见第II报. 相似文献
109.
The morphology, crystallization behavior, and properties of an impact-modified polypropylene (PP) copolymer with or without
sodium benzoate were investigated. The contents of ethylene–propylene rubber (EPR) in the reactor-made PP copolymer is about
15 wt%. For comparison, blends of PP and EPR containing the same EPR composition were prepared by melt-mixing. Morphological
studies by scanning probe microscopy indicated that the impact-modified copolymer consists of three different phases, i.e.,
polyethylene, PP, and EPR phases, which is considerably different from the morphology of the conventional PP/EPR blend of
the corresponding composition. The impact-modified PP copolymer exhibited a higher crystallization rate in terms of the lower
crystallization half-time and thus higher thermal and mechanical properties, such as impact strength and hardness, than the
PP/EPR blend did. The addition of sodium benzoate as a nucleating agent to the copolymer increased the crystallization rate
and the mechanical properties.
Received: 4 June 2001 Accepted: 31 October 2001 相似文献
110.
Yunsong Yang 《European Polymer Journal》2004,40(3):531-541
A series of α,ω-dihydroxy polyarylene sulfones (PAES) were synthesized comprising bisphenol A (PAES1, Mn=1800, 4900, and 9500 daltons), 4,4′-biphenol (PAES2, Mn=4100 daltons), and hexafluorobisphenol A (PAES3, Mn=3300 daltons). These were reacted with α,ω-dibromo poly(vinylidene fluoride) (PVDF, Mn=1200 daltons) prepared by telomerization, to yield block copolymers possessing rigid and flexible segments. Block copolymers were characterized by FTIR, NMR, GPC, DSC, TGA and TEM. In several cases the block copolymers exhibited distinct thermal transitions, i.e. Tm and Tg for PVDF and PAES segments, respectively. Where observable, Tg of PAES domains in the block copolymers occurred at a temperature lower than the corresponding PAES homopolymer due to the flexible nature of the surrounding PVDF domains. Block copolymers exhibited a similar thermal stability to the corresponding PAES homopolymers but higher stability than the PVDF homopolymer, and much higher still than α,ω-dibromo PVDF. TEM analyses indicate that phase separation of PAES and PVDF domains occurs on the nanometer scale. 相似文献