聚氯乙烯—聚氧乙烯共混物的反相色谱研究

用反相色谱研究了聚氯乙烯与聚氧乙烯的相容性，发现其共混物的经保留体积Ｖｇ２３具有重量加和性，表明共混物可能发生了相分离，导出了相分离体系聚合物相互作用参数Ｘ２３的近似关系式：ｘ２３＝（ｘ１２－ｘ１３）＾２／２，由此式可以解释ｘ２３对探针种类的依赖性，聚氯乙烯和聚氧乙烯共混体系的反相色谱实验结果基本符合这一关系式。     

聚氯乙烯-聚氧乙烯共混物的反相色谱研究

用反相色谱研究了聚氯乙烯与聚氧乙烯的相容性,发现其共混物的比保留体积V_g23具有重量加和性,表明共混物可能发生了相分离。导出了相分离体系聚合物相互作用参数X₂₃的近似关系式:X₂₃=(X₁₂-X₁₃)²/2,由此式可以解释X₂₃对探针种类的依赖性。聚氯乙烯和聚氧乙烯共混体系的反相色谱实验结果基本符合这一关系式。     

氯化聚氯乙烯／环氧树脂共混体的流变性质及形态

氯化聚氯乙烯(CPVC)具有优良的物理性能。但须严格控制加工温度,加工熔体粘度较大。近年,作者曾对CPVC与氯化聚乙烯(CPE)和丙烯酸酯共聚物(ACR)共混体的流变性质进行了研究。本文首次研究CPVC与环氧树脂(EP)共混体的流变性质与形态。     

环氧树脂/聚氧化乙烯共混物及其与硫氰化钠络合物的结构研究(Ⅰ)

对不同分子量聚氧乙烯(PEO)以不同比例与双酚A二缩水甘油醚型环氧树脂(ER)制得的交联共混物ER/PEO,以及再与NaSCN络合后的产物用WAXD,SAXS,DSC和SEM等方法进行了研究,结果表明:随着ER含量的增加,ER/PEO共混物由晶态转为非晶态。ER/PEO属单斜晶系;与NaSCN络合后,体系结晶性变差。ER/PEO-NaSCN属三斜晶系,其长周期比相应ER/PEO交联共混物的长周期值大。EP的加入使非晶层增厚,结晶片层变薄,长周期值增加。     

丙烯酸酯封端环氧丙烷聚醚聚氨酯与双酚A型环氧树脂共混固化体系

丙烯酸酯封端环氧丙烷聚醚聚氨酯与双酚Ａ型环氧树脂共混固化体系丁伦汉华道本黄家贤＊韩敏（南开大学化学系天津３０００７１）（天津市聚氨酯泡沫材料厂天津）关键词环氧树脂，聚环氧丙烷，共混物，制备１９９６－１１－２２收稿，１９９７－０５－１３修回国家自然科学...     

温度对聚氧乙烯／共聚酯型聚氨酯共混物气体渗透行为影响的研究

在20°～80℃范围内的一系列温度下研究了H_2、N_2、O_2和CO_2气体对聚氧乙烯(PEO)/共聚酯型聚氨酯(PU)共混物的渗透行为。共混物透气系数的对数对温度的倒数作图符合Arrhenius关系,但在共混物中PEO熔点附近会出现转折点或突变;在PEO熔点上下,共混物有着完全不同的透气系数—组成曲线以及气体渗透活化能—组成曲线。结果说明了温度强烈影响共混物的气体渗透行为。     

环氧树脂／酚酞聚醚醚砜共混物的相行为

酚酞聚醚醚砜(PES-c)同未交联的双酚A二缩水甘油醚(DGEBA)环氧树脂的共混物呈单一的玻璃化转变温度,其相容性主要归因于混合熵的贡献。PES-C同交联的环氧树脂之间的相容性与所用的固化剂有关。以胺类作DGEBA的固化剂时,共混物不发生相分离;以酸酐作固化剂时,共混物发生相分离。     

辐射增强PP／BR共混体系的力学性能

研究了在多官能团单体－三烯丙基异氰酸酯存在下，共混体系聚丙烯／１．４－聚丁二烯橡胶的辐射效应，用ＤＳＣ，动态粘弹谱对其进行表征。结果显示，三烯丙基异氰酸酯主要分布于聚丙烯／１．４－聚丁二烯橡胶共混物的界面自高能射线作用下，被引发参与界面反应，从而改善了共混体系的相容性，增强也界面粘接，提高了共混物的力学性能。     

环氧／环氧丙烯酸酯的光交联和动态力学性能

用硬度法研究了环氧／环氧丙烯酸酯混杂体系中以硫翁盐引发光交联时，组成对光交联的影响；安息香二甲醚能促进混杂体系的光交联；动态力学性能的测定表明该体系是一相容性互网络体系；组成对体系的相容性，交联密度、互穿程度均有影响。     

Effect of Hyperbranched Polyester on Modification of Epoxy Resins Cured with Anhydride

Epoxy resins are widely used in coatings, adhesives and polymer composites, but the applications of cured epoxy resins are often restricted by their poor toughness. HBP can be used as toughener to improve the toughness of epoxy resins due to its high-dens…     

环氧树脂/聚碳酸酯固化共混物的结构及性能

相结构;酯交换反应;力学性能;环氧树脂/聚碳酸酯固化共混物的结构及性能     

聚醚链段长度对氨基聚醚-环氧树脂力学性能的影响

以柔性端氨基聚醚(BATPE)和双酚A环氧树脂(DGEBA)为原料, 制备了无微相分离结构的无定型AB交联热固性树脂. 测试了3种不同聚乙二醇(PEG)链段长度(M_PE)的BATPE-DGEBA环氧树脂固化产物的应力-应变曲线、动态力学温度谱和冲击断面形貌. 结果表明, 在环氧树脂交联网络中引入两端与DGEBA化学连接的PEG链段能避免微相分离结构的生成, 有利于提高DGEBA链段的应变松弛速率. 增加M_PE, 一方面能降低环氧树脂固化产物的玻璃化转变温度和室温下的刚度和拉伸强度, 增加韧性(包括冲击强度和拉伸韧性)、断裂应变和模量损耗因子; 另一方面也能提高固化产物在低温下的储存模量. 优化M_PE可制备出在中低温下同时具有优异的拉伸强度、模量、断裂应变和冲击性能的BATPE-DGEBA环氧树脂.     

Mechanical and Morphological Properties of Bio-Phenolic/Epoxy Polymer Blends

Polymer blends is a well-established and suitable method to produced new polymeric materials as compared to synthesis of a new polymer. The combination of two different types of polymers will produce a new and unique material, which has the attribute of both polymers. The aim of this work is to analyze mechanical and morphological properties of bio-phenolic/epoxy polymer blends to find the best formulation for future study. Bio-phenolic/epoxy polymer blends were fabricated using the hand lay-up method at different loading of bio-phenolic (5 wt%, 10 wt%, 15 wt%, 20 wt%, and 25 wt%) in the epoxy matrix whereas neat bio-phenolic and epoxy samples were also fabricated for comparison. Results indicated that mechanical properties were improved for bio-phenolic/epoxy polymer blends compared to neat epoxy and phenolic. In addition, there is no sign of phase separation in polymer blends. The highest tensile, flexural, and impact strength was shown by P-20(biophenolic-20 wt% and Epoxy-80 wt%) whereas P-25 (biophenolic-25 wt% and Epoxy-75 wt%) has the highest tensile and flexural modulus. Based on the finding, it is concluded that P-20 shows better overall mechanical properties among the polymer blends. Based on this finding, the bio-phenolic/epoxy blend with 20 wt% will be used for further study on flax-reinforced bio-phenolic/epoxy polymer blends.     

橡胶活性官能团对增韧环氧树脂动态力学性能的影响

用动态扭摆法测试聚丙烯酸丁酯橡胶增韧环氧树脂的动态力学行为,研究在环氧树脂低固化度和高固化度时,橡胶活性官能团种类(环氧基官能团与羧基官能团)和数量(官能度)对其影响。研究体系中橡胶玻璃化转变温度(Tg)的移动大小,与橡胶和基体树脂健合程度之间的关系。     

SIS/石油树脂共混体系的阻尼性质

通过动态力学性能分析研究了嵌段共聚物聚苯乙烯-异戊二烯-苯乙烯（SIS）／油树脂共混体系的阻尼性质。SIS的硬段聚苯乙烯含量越高，损耗因子（tanδ）峰值温度和粘流温度越高。含有脂肪族系（C5系）石油树脂共混体系的粘流温度比含有氢化芳香族系（C9系）的高。石油树脂的软化点提高，tanδ峰值温度上升。随着石油树脂的含量增大，tanδ峰值增大，并向高温移动，但储能模量（E＇）却先大幅度减小，而后缓慢增大。石油树脂和SIS的软段聚异戊二烯（PI）具有更好的相容性。SIS／N油树脂共混体系的阻尼性能优异，如SIS-A／E120（100／125）在-11～115℃范围内tanδ〉0．3。     

Morphology and Mechanical Properties of Nylon 6/PBT Blends Compatibilized with Styrene/Maleic Anhydride Copolymer

The mechanical properties and dynamic mechanical properties of blends composed of Nylon 6 and poly(butylenes terephthalate)(PBT),with styrene/maleic anhydride(SMA)as compatibilizer,were studied.The observation on the morphologies of the etched surfaces of the cryogenically fractured specimens via scanning electron microscopy(SEM)demonstrated that in the compatibilized Nylon 6/PBT blends,there exists a finer and more uniform dispersion induced by the in-situ interfacial chemical reactions during the preparation than that in the corresponding uncompatibilized blends.On the other hand,the overall mechanical properties of the compatibilized blends could be remarkably improved compared with those of the uncompatibilized ones.Moreover,increasing the amount of the compatibilizer SMA leads to a more efficient dispersion of the PBT phase in Nylon 6/PBT blends.Furthermore,there exists an optimum level of SMA added to achieve the maximum mechanical properties.As far as the mechanism of this reactive compatibilization is concerned,the enhanced interfacial adhesion is necessary to obtain improved dispersion,stable phase morphology,and better mechanical properties.