Thermal, Morphological, Mechanical and Aging Properties of Polylactide Blends with Poly(ether urethane) Based on Chain-extension Reaction of Poly(ethylene glycol) Using Diisocyanate  

作　　者：li-dong feng sheng xiang bin sun yan-long liu zhi-qiang sun 边新超 gao li 陈学思 

机构地区：[1]Key Laboratory of Polymer Ecomaterials,Changchun Institute of Applied Chemistry,Chinese Academy of Sciences,Changchun 130022,China

出　　处：《Chinese Journal of Polymer Science》2016年第9期1070-1078,共9页高分子科学（英文版）

基　　金：financially supported by the National Natural Science Foundation of China(Nos.51573178,51390480,51203155,51403199 and 51303176);the National High Technology Research and Development Program("863" Program) of China(No.2015AA034004)

摘　　要：Poly（ether urethane）s （PEU）, including PEUI 15 and PEUH15, were prepared through chain-extension reaction of poly（ethylene glycol） （PEG-1500） using diisocyanate as a chain extender, including isophorone diisocyanate （IPDI） and hexamethylene diisocyanate （HDI）. These PEUs were used to toughen polylactide （PLA） by physical and reactive blending. Thermal, morphological, mechanical and aging properties of the blends were investigated in detail. These PEUs were partially compatible with PLA. The elongation at break of the reactive blends in the presence of triphenyl phosphate （TPP） for PLA with PEUH15 or PEUI15 was much higher than that of the physical blends. The aging test was carried out at -20 ~C for 50 h in order to accelerate the crystallization of PEUs. The PEUs in the PLA/PEU blends produced crystallization and formed new phase separation with PLA, resulting in the declined toughness of blends. Fortunately, under the aging condition, although PEUH15 in blends could also form crystallization, the reactive blend of PLA/PEUH15/TPP（80/20/2） bad higher toughness than the other blends. The elongation at break of PLA/PEUH 15/TPP（80/20/2） dropped to 287% for the aging blend from 350% for the original blend. The tensile strength and modulus of PLA/PEUH15/TPP blend did not change obviously because of the crystallization of PEUH 15.Poly（ether urethane）s （PEU）, including PEUI 15 and PEUH15, were prepared through chain-extension reaction of poly（ethylene glycol） （PEG-1500） using diisocyanate as a chain extender, including isophorone diisocyanate （IPDI） and hexamethylene diisocyanate （HDI）. These PEUs were used to toughen polylactide （PLA） by physical and reactive blending. Thermal, morphological, mechanical and aging properties of the blends were investigated in detail. These PEUs were partially compatible with PLA. The elongation at break of the reactive blends in the presence of triphenyl phosphate （TPP） for PLA with PEUH15 or PEUI15 was much higher than that of the physical blends. The aging test was carried out at -20 ~C for 50 h in order to accelerate the crystallization of PEUs. The PEUs in the PLA/PEU blends produced crystallization and formed new phase separation with PLA, resulting in the declined toughness of blends. Fortunately, under the aging condition, although PEUH15 in blends could also form crystallization, the reactive blend of PLA/PEUH15/TPP（80/20/2） bad higher toughness than the other blends. The elongation at break of PLA/PEUH 15/TPP（80/20/2） dropped to 287% for the aging blend from 350% for the original blend. The tensile strength and modulus of PLA/PEUH15/TPP blend did not change obviously because of the crystallization of PEUH 15.

关 键 词：POLYLACTIDE Poly（ethylene glycol） Poly（ether urethane） Toughness Aging. 

分 类 号：TQ317[化学工程—高聚物工业]