含有二个聚醚软链段的聚醚聚酯嵌段共聚物的合成及其血液相容性的研究

 本文报道了一类新的具有二种聚醚软链段(PTMGT和PEGT)和一种聚酯硬链段(PET)的混合聚醚-聚酯嵌段共聚物(MPEE)的合成和它的血液相容性,并与具有相同软、硬链段比及相同软链段组成比(PTMGT/PEGT)的二种聚醚聚酯嵌段共聚物(PTMGT-PET和PEGT-PET)的共混物(BPEE)的性质进行了比较,结果表明:(1)聚醚聚酯嵌段共聚物的血液相容性可以通过引入亲水性好的PEGT组分而得到提高;(2)在多数的组成比下,共聚型的MPEE具有比共混型的BPEE优良的血液相容性;(3)特定的组成比:PTMGT/PEGT=60/40(mol),共混型的BPEE:(60/40)呈现最好的血液相容性以及最佳的力学性质。研究中发现材料的微相分离结构同血液相容性有关,细微的相分离结构可导致优良的血液相容性。     

具有血液相容性的嵌段聚酯-聚醚接枝共聚物的合成

本文研究了嵌段聚酯-聚醚膜经紫外光活化后,于水溶液中铈盐引发亲水性单体丙烯酰胺在其表面上接枝共聚合反应。同时对接枝物进行了证实和表征。并通过活体动物血液灌流实验表明,此接枝共聚物具有良好的血液相容性。     

聚酯-聚醚嵌段共聚物同环氧树脂共混改性的研究

聚酯-聚醚多嵌段共聚物同少量的环氧树脂等共混,可以改善共混物作热熔胶使用时的剪切强度、剥离强度和热光老化性能。本文研究了共混条件,同时根据IR、DTA、TM和TG实验结果,提出了在熔融粘接过程中,环氧基同共聚物端羟、羧基反应的可能性。     

聚丙烯与聚酯-聚醚多嵌段共聚物共混的研究

聚丙烯和聚酯-聚醚多嵌段共聚物的熔融共混物是微多相分散体系,其力学性能和软链段的结构有关。DSC和偏光显微镜图分别表明共混物中聚丙烯结晶度以及球晶尺寸随聚酯-聚醚的混入量而变小。聚丙烯和少量聚酯-聚醚多嵌段共聚物共混,可改进聚丙烯的流变性,吸湿性和染色性。     

硬段含介晶的多嵌段共聚物的合成和研究

通过对-乙酰氧基苯甲酸或对-乙酰胺基苯甲酸和聚酯-聚醚多嵌段共聚物的硬段PET进行酸解反应,和随后的乙酰氧基或乙酰胺基,和羧基间的缩聚反应,分别合成了硬段含介晶的共聚酯-聚醚多嵌段共聚物和聚酯酰胺-聚醚多嵌段共聚物,研究了它们的热致液晶行为。     

聚醚聚酯嵌段共聚物共混物表面组成的ESCA研究

<正> 关于生物医用材料的微多相分离结构和适宜的亲、疏水性同它血液相容性间关系的研究已有不少文献报道。由于材料在使用时真正同血液相接触的只是材料的表面部分,因此材料的表面组成、结构和性质对它的血液相容性就具有更为直接的关系。对聚醚     

聚醚醚酮／聚醚砜嵌段共聚物的动态力学行为

本文以聚醚醚酮和聚醚砜两种齐聚物为原料合成了聚醚醚酮／聚醚砜嵌段共聚物，用动态力学谱仪对其进行了动态力学性能研究。从无定形共聚物样品对数减量－温度谱图中观察到清晰而完全分离的玻璃化转变内耗峰和非晶态向结晶态转变（α＇转变）内耗峰，确认α＇转变发生在冷结晶初期而后很快减弱。     

聚酯-聚酯多嵌段共聚物序列结构研究

利用对苯二甲酸乙二酯-己内酯多嵌段共聚物质子谱中各官能团的特征共振吸收峰计算证明两种吸收强度关系式反映了软链段和硬链段中相应官能团的数量关系,从而进一步肯定了所提出的链化学结构,在此基础上又直接利用各种官能团对其质子谱中特征吸收峰的强度贡献,计算得到多嵌段共聚物中软硬链段数,软硬链段平均长度,分子量和硬链段重量百分数的表示式。本文最后一部分用三素组的几率计算方法对多嵌段共聚物的质子谱和~(13)C谱分析讨论,所得有关链结构的数量关系是合理的,进一步证实了质子谱的直接计算法。     

含有二个聚醚软链段的聚醚聚酯嵌段共聚物的合成及其血液相容性的研究

本文报道了一类新的具有二种聚醚软链段(PTMGT和PEGT)和一种聚酯硬链段(PET)的混合聚醚-聚酯嵌段共聚物(MPEE)的合成和它的血液相容性,并与具有相同软、硬链段比及相同软链段组成比(PTMGT/PEGT)的二种聚醚聚酯嵌段共聚物(PTMGT-PET和PEGT-PET)的共混物(BPEE)的性质进行了比较,结果表明:(1)聚醚聚酯嵌段共聚物的血液相容性可以通过引入亲水性好的PEGT组分而得到提高;(2)在多数的组成比下,共聚型的MPEE具有比共混型的BPEE优良的血液相容性;(3)特定的组成比:PTMGT/PEGT=60/40(mol),共混型的BPEE:(60/40)呈现最好的血液相容性以及最佳的力学性质。研究中发现材料的微相分离结构同血液相容性有关,细微的相分离结构可导致优良的血液相容性。     

聚酯聚醚嵌段共聚物与1,4-二咔唑环丁烷在激发态及基态的相互作用

<正> 聚酯聚醚嵌段共聚物具有十分良好的物理和机械性能,能加工成橡胶、纤维、塑料胶粘剂等,近年来也有作为医用高分子材料的报道。所以对聚酯聚醚嵌段共聚物的研究十分活跃。然而,有关其光物理性质的研究还很少见。本文报道了混合聚醚-聚酯嵌段共聚物(MPEE)与反式1,4-二咔唑环丁烷(1,4-DCC)在激发态和基态下的相互络合作用。结果表明,MPEE可以猝灭1,4-DCC的荧光,同时形成激基复合物。在分散     

STUDY ON SOME PROPERTIEE OF Si-CONTAINING POLYESTER-POLYETHER MULTIBLOCK COPOLYMERS

Some physical properties of the polyester-polyeher multiblock copolymers with Si-containing hard segment were further examined by a series of physical methods. Thehydrophobicity of the copolymers was improved with the incorporation of increasing amountof organosilicone, XPS test proved that silicon element was enriched at the surface of theSi-containing polyeser-polyether copolymers. It was also found that their heat resistanceand gas permeability for O_2 and N_2 were greatly improved. The study on semipermeabilityof films made of the Si-containing copolymers was also followed with interest.     

SYNTHESES AND CHARACTERIZATI0N OF Si-CONTAINING POLYESTER-POLYETHER MULTIBLOCK COPOLYMERS

A series of Si-containing polyester-polyether multiblock copolymers were synthesizedby transesterification and melt copolycondensation of organosilicon monomers [1, 1, 3, 3-tetramethyl-1, 3-bis (p-carbomethoxyphenyl) disiloxane] (I ) or dimethyl bis (p-carbometh-oxyphenyl) silane] (II) and dimethyl terephthalate (DMT), with 1, 4-butanediol, poly-tetramethylene glycol (PTMG) respectively. The organosilicon monomers were preparedby Grinard reaction, oxidation and esterification. The structures of the above monomers(I), (II) and the copolymers were characterized by MS anal. and ~1H-NMR.     

(丁二烯-环氧乙烷)多嵌段共聚物的表征及性能

由双羟基聚丁二烯与聚乙二醇用甲苯二异氰酸酯偶联而成的多嵌段共聚物经萃取精制后用IR、GPC、元素分析、膜渗透压、X-射线衍射及透射电子显微镜等表征,并研究其不同组成与乳化性质、相转移催化性质及力学性能的关系.     

SYNTHESIS OF POLYESTER-POLYETHER MULTIBLOCK COPOLYMERS FROM POLYESTERS

A polymeric method was explored for the preparation of polyester-polyether multiblock copoly-mers using polyesters and polpethers as starting materials. The mechanism of the reaction and theeffect of the segment structure on it, the segment sequence of the block copolymers prepared havebeen studied. It has been shown that to the polymeric method the degree of compatibility betweenstarting polyester and polyether is of paramount importance, which determines not only the com-positional homogeneity of the block copolymers formed but also the success of the polymeric methodto get the block copolymers of the expected structure.     

从聚酯合成聚酯-聚醚多嵌段共聚物

研究直接以聚酯为原料,合成聚酯-聚醚多嵌段共聚物。研究了反应机理、链段结构对反应的影响以及由此法制备的多嵌段共聚物的链段序列结构。实验结果表明,链段相容性对聚合物法的影响至为重要,链段相容性不仅决定了所得嵌段共聚物的组成均一性,而且还决定了某一链段结构的多嵌段共聚物能否用聚合物法制备。     

GRAFT COPOLYMERIZATION OF ACRYLAMIDE ONTO THE UV-RAY IRRADIATED FILM OF POLYESTER-POLYETHER

In this paper the Ce(Ⅳ) salt initiated graft copolymerization of acrylamide onto the film of polyesterpolyether block copolymer irradiated by UV-ray was reported. The UV-irradiation of the film and its graft process have been investigated by UV spectrum, ESR and ESCA and the influence of other factors on the graft copolymerization has been discussed.     

STUDY ON THE SYNTHESIS AND PROPERTIES OF POLY(ESTER-IMIDEETHER)MULTIBLOCK COPOLYMERS

A new class of poly(ester-imide-ether) multiblock copolymers was synthesized by transes-terification and meltcopolymerization of dimethyl terephthalate (DMT) and N-(4-carbomethoxyphenyl)-4-(carbomethoxy)-phthalimide withethylene glycol (EG) and polytetramethylene glycol (PTMG). The structure of the above copolymers was characterized by~1H-NMR and IR spectroscopy. Some properties of the coplymers were also examined. It was found that their mechanicalproperties and heat stability, compared with poly(ether-ester) copolymers, were obviously improved.