Poly(vinyl chloride)-g-poly(2-hydroxyethyl methacrylate) (PVC-g-PHE MA) copolymers were prepared by the aqueous suspension-swelling graft copolymer ization process.The grafting of HEMA on PVC was confirmed by the infr...Poly(vinyl chloride)-g-poly(2-hydroxyethyl methacrylate) (PVC-g-PHE MA) copolymers were prepared by the aqueous suspension-swelling graft copolymer ization process.The grafting of HEMA on PVC was confirmed by the infrared spect rum.The grafting degree increased with the increase of feeding mass fraction of HEMA,and a maximum grafting efficiency appeared at 10% mass fraction of HEMA i n feed.The grafting degree and efficiency increased as partially dehydrochlorin ated PVC was used.The intrinsic viscosity of graft copolymers increased slowly with the increase of the grafting degree of HEMA,and decreased at high grafting degrees.PVC-g-PHEMA copolymers exhibited a higher glass transition tempe rature (T g) in the first DSC run than that in the second run,and T g of graft copolymers increased as the grafting degree increased.展开更多
通过电子束辐照研究了乙烯-甲基丙烯酸甲酯共聚物(EMMA)与三元乙丙橡胶(EPDM)不同共混比例材料的力学性能、硬度、交联度、结晶及形状记忆等,考察了辐照剂量和共混组分比例对材料性能的影响。结果表明,辐照提高了共混体系的力学性...通过电子束辐照研究了乙烯-甲基丙烯酸甲酯共聚物(EMMA)与三元乙丙橡胶(EPDM)不同共混比例材料的力学性能、硬度、交联度、结晶及形状记忆等,考察了辐照剂量和共混组分比例对材料性能的影响。结果表明,辐照提高了共混体系的力学性能和硬度,同时降低了结晶性能,这主要是由于辐照诱发了交联反应,使材料内部产生了交联结构。辐照交联为EMMA/EPDM共混物热收缩材料提供了形状回复的驱动力,但降低了形状固定率,通过控制交联度和结晶相所占比例,能够得到综合性能好的热收缩材料。当EMMA/EPDM(质量比)达到或高于3/7、辐照剂量控制在40~80 k Gy时,能够制备出满足基本要求的热收缩材料。展开更多
文摘Poly(vinyl chloride)-g-poly(2-hydroxyethyl methacrylate) (PVC-g-PHE MA) copolymers were prepared by the aqueous suspension-swelling graft copolymer ization process.The grafting of HEMA on PVC was confirmed by the infrared spect rum.The grafting degree increased with the increase of feeding mass fraction of HEMA,and a maximum grafting efficiency appeared at 10% mass fraction of HEMA i n feed.The grafting degree and efficiency increased as partially dehydrochlorin ated PVC was used.The intrinsic viscosity of graft copolymers increased slowly with the increase of the grafting degree of HEMA,and decreased at high grafting degrees.PVC-g-PHEMA copolymers exhibited a higher glass transition tempe rature (T g) in the first DSC run than that in the second run,and T g of graft copolymers increased as the grafting degree increased.
文摘通过电子束辐照研究了乙烯-甲基丙烯酸甲酯共聚物(EMMA)与三元乙丙橡胶(EPDM)不同共混比例材料的力学性能、硬度、交联度、结晶及形状记忆等,考察了辐照剂量和共混组分比例对材料性能的影响。结果表明,辐照提高了共混体系的力学性能和硬度,同时降低了结晶性能,这主要是由于辐照诱发了交联反应,使材料内部产生了交联结构。辐照交联为EMMA/EPDM共混物热收缩材料提供了形状回复的驱动力,但降低了形状固定率,通过控制交联度和结晶相所占比例,能够得到综合性能好的热收缩材料。当EMMA/EPDM(质量比)达到或高于3/7、辐照剂量控制在40~80 k Gy时,能够制备出满足基本要求的热收缩材料。