聚氨酯工业
聚氨酯工業
취안지공업
POLYURETHANE INDUSTRY
2014年
3期
17-20
,共4页
安庆莲%韦军%王静静%丁亮%王成双
安慶蓮%韋軍%王靜靜%丁亮%王成雙
안경련%위군%왕정정%정량%왕성쌍
纳米SiO2%聚氨酯丙烯酸酯%杂化涂层%光固化
納米SiO2%聚氨酯丙烯痠酯%雜化塗層%光固化
납미SiO2%취안지병희산지%잡화도층%광고화
nanosilica%PUA resin%hybrid coating%UV-curing
采用不同相对分子质量的聚乙二醇( PEG-200、400、600)分别与六亚甲基二异氰酸酯( HDI)反应合成预聚体,再以此预聚体对纳米SiO2进行表面接枝改性,制备了聚氨酯改性纳米SiO2;将改性纳米SiO2分散到聚氨酯丙烯酸酯( PUA)中光固化制备了PUA/SiO2纳米杂化涂层。讨论了PEG相对分子质量对PUA/SiO2纳米杂化涂层的耐热性能和力学性能的影响,并以FT-IR、差示扫描量热法( DSC)等进行表征。结果表明,改性后的纳米SiO2粒子优化了PUA树脂的性能,且以PEG-400与HDI合成的预聚体来改性纳米SiO2用于制备的PUA/SiO2纳米杂化涂层具有较好的耐热性和抗冲击性。
採用不同相對分子質量的聚乙二醇( PEG-200、400、600)分彆與六亞甲基二異氰痠酯( HDI)反應閤成預聚體,再以此預聚體對納米SiO2進行錶麵接枝改性,製備瞭聚氨酯改性納米SiO2;將改性納米SiO2分散到聚氨酯丙烯痠酯( PUA)中光固化製備瞭PUA/SiO2納米雜化塗層。討論瞭PEG相對分子質量對PUA/SiO2納米雜化塗層的耐熱性能和力學性能的影響,併以FT-IR、差示掃描量熱法( DSC)等進行錶徵。結果錶明,改性後的納米SiO2粒子優化瞭PUA樹脂的性能,且以PEG-400與HDI閤成的預聚體來改性納米SiO2用于製備的PUA/SiO2納米雜化塗層具有較好的耐熱性和抗遲擊性。
채용불동상대분자질량적취을이순( PEG-200、400、600)분별여륙아갑기이이청산지( HDI)반응합성예취체,재이차예취체대납미SiO2진행표면접지개성,제비료취안지개성납미SiO2;장개성납미SiO2분산도취안지병희산지( PUA)중광고화제비료PUA/SiO2납미잡화도층。토론료PEG상대분자질량대PUA/SiO2납미잡화도층적내열성능화역학성능적영향,병이FT-IR、차시소묘량열법( DSC)등진행표정。결과표명,개성후적납미SiO2입자우화료PUA수지적성능,차이PEG-400여HDI합성적예취체래개성납미SiO2용우제비적PUA/SiO2납미잡화도층구유교호적내열성화항충격성。
In this paper,firstly,nanosilica was prepared by sol-gel method,and the low molecular weight isocy-anate-terminated polyurethane prepolymer was synthesized by the reaction of hexamethylene diisocyanate ( HDI ) with different molecular weight polyethyleneglycol(PEG 200,400 and 600). Then,the prepolymer was grafted onto the surface of nanosilica to obtain polyurethane-modified nanosilica. Finally, the modified nanosilica was dispersed into polyurethane acrylate( PUA) , which was then cured by UV light to achieve nanohybrid coatings. The structure of modified nanosilica was characterized by FT-IR. Thermodynamic and mechanical properties of curing materials were investigated by differential scanning calorimetry ( DSC) ,pendulum damping tester and film impactor, respec-tively. The results indicated that the property of coating prepared by nanosilica was optimized by nanosilica, and the nanosilica was modified by PEG-400 and HDI possessed better property of heat resistance and impact resist-ance.
