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作 者:刘浙辉[1] 朱晓光[1] 张学东[1] 漆宗能[1] 蔡忠龙[2] 王佛松[3]
机构地区:[1]中国科学院化学研究所工程塑料国家重点实验室 [2]香港理工大学应用物理系 [3]中国科学院
出 处:《高分子学报》1997年第5期565-572,共8页Acta Polymerica Sinica
基 金:国家自然科学基金;研究与发展基金;香港ResearchGrantCouncil基金
摘 要:根据作者已建立的准网络形态模型和推导出的基体层厚度计算公式,从实验上研究了橡胶粒子的分布对聚氯乙烯(PVC)/丁氰橡胶(NBR)共混物脆韧转变的影响.结果表明,不仅无规形态PVC/NBR共混物存在脆韧转变主曲线,而且准网络形态PVC/NBR共混物也存在脆韧转变主曲线.但是两条主曲线明显不重合,表明橡胶粒子的分布对PVC/NBR共混物脆韧转变有显著影响.而且准网络形态PVC/NBR共混物的临界基体层厚度比无规形态PVC/NBR共混物的临界基体层厚度大得多,表明准网络形态比无规形态明显有利于增韧.因此临界基体层厚度不仅是基体的特征参数,还是界面粘结和橡胶粒子分布的函数.An experimental study of the effect of rubber particle dispersion on the brittle ductile transition of polyvinyl chlorde (PVC)/nitrible rubber (NBR) blends is carried out based on the model of pseudonetwork morphology established in our previous paper.However,two well separated master curves of brittle ductile transition for blends with the morphology of well dispersed rubber particles and with the pseudonetwork morphology were obtained,indicating that the rubber particle dispersion has a great influence on the brittle ductile transition of PVC/NBR blends.The critical matrix ligament thickness for the blends with the morphology of well dispersed rubber particles is much smaller than that for the blends with the pseudonetwork morphologyy.Therefore,the pseudonetwork morphology is much more efficient in the rubber toughening of PVC than that of well dispersed rubber particles.The present study strongly supports that the critical matrix ligament thickness is not only a material property of polymer maxtrix,but it is also a function of interfacial adhesion and rubber particle configuration.
分 类 号:TQ325.3[化学工程—合成树脂塑料工业] O631.21[理学—高分子化学]
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