功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2012年
6期
783-787
,共5页
麦伟忠%王培连%屠美%曾戎%赵剑豪
麥偉忠%王培連%屠美%曾戎%趙劍豪
맥위충%왕배련%도미%증융%조검호
微波%聚氯酯%接枝反应%聚乙二醇
微波%聚氯酯%接枝反應%聚乙二醇
미파%취록지%접지반응%취을이순
microwave%polyurethane%grafting polymerization%polyethylene glycol
采用微波辐照辅助技术在聚氨酯膜的表面接枝聚乙二醇,并与传统加热反应接枝聚乙二醇的方法进行对比。结果表明,微波辅助反应能明显加快聚氨酯表面接枝PEG的速度,其接枝效果受微波功率、反应时间以及投料比的影响。在实验条件下,微波功率为100W,反应物的质量分数为5%,反应时间为10min时,微波辅助表面接枝反应效果以及效益最好。SEM和AFM表面分析表明,与传统加热反应方法相比,微波辅助反应对膜表面的破坏程度更小,膜表面更加光滑平整。水接触角的结果也表明,微波辅助反应接枝PEG所得膜表面具有良好的亲水性能。
採用微波輻照輔助技術在聚氨酯膜的錶麵接枝聚乙二醇,併與傳統加熱反應接枝聚乙二醇的方法進行對比。結果錶明,微波輔助反應能明顯加快聚氨酯錶麵接枝PEG的速度,其接枝效果受微波功率、反應時間以及投料比的影響。在實驗條件下,微波功率為100W,反應物的質量分數為5%,反應時間為10min時,微波輔助錶麵接枝反應效果以及效益最好。SEM和AFM錶麵分析錶明,與傳統加熱反應方法相比,微波輔助反應對膜錶麵的破壞程度更小,膜錶麵更加光滑平整。水接觸角的結果也錶明,微波輔助反應接枝PEG所得膜錶麵具有良好的親水性能。
채용미파복조보조기술재취안지막적표면접지취을이순,병여전통가열반응접지취을이순적방법진행대비。결과표명,미파보조반응능명현가쾌취안지표면접지PEG적속도,기접지효과수미파공솔、반응시간이급투료비적영향。재실험조건하,미파공솔위100W,반응물적질량분수위5%,반응시간위10min시,미파보조표면접지반응효과이급효익최호。SEM화AFM표면분석표명,여전통가열반응방법상비,미파보조반응대막표면적파배정도경소,막표면경가광활평정。수접촉각적결과야표명,미파보조반응접지PEG소득막표면구유량호적친수성능。
The PEG was grafted onto the surface of polyurethane membranes using a microwave irradiation technology, which was compared with the conventional heated method. The results showed that microwave could apparently accelerate grafting polymerization of the polyurethane surface. Microwave power, reaction time as well as the mass fraction had influences on grafting effects. In this experiment, the microwave reaction could get thebest efficiency when the microwave power was 100W, the mass fraction 5% and the reaction time 10min. Scan- ning electron microscopy and atomic force microscopy observations displayed that the membrane surface was smoother and in smaller destruction with microwave irradiation than with conventional heated method. The water contact angle data also indicated that the membrane surface had better hydrophilicity after grafting the PEG assisted by microwave.
