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高分子学报 2012

乙烯基单体光聚合动力学与光固化流变行为

DOI: 10.3724/SP.J.1105.2012.12217, PP. 1218-1224

彭海炎,倪名立,毕曙光,解孝林

Keywords: 全息聚合物分散液晶,光聚合动力学,光固化流变行为,相分离,凝胶化

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Abstract:

概述了光引发体系、光照强度、单体平均官能度、液晶含量、反应温度、助剂等对乙烯基单体/液晶混合物光聚合动力学及光固化流变行为的影响.在染料和胺组成的二元Ⅱ型(夺氢型)光引发体系中,引入适当的第三组分能显著提高反应速率和转化率;增加光照强度和升高温度也能显著提高反应速率和转化率.随着单体平均官能度的增加,体系的反应速率和转化率呈现先增加后降低的趋势.对于Ⅰ型(裂解型)光引发剂,液晶含量增加,单体反应速率降低,但转化率基本不变;但对于Ⅱ型光引发剂,液晶含量增加能大幅提高单体反应速率和转化率.加入使体系黏度降低的助剂也能提高体系的反应速率和转化率.在体系相同、温度固定的条件下,反应速率越高,凝胶化时间越短;相同体系,温度升高,凝胶化时间提前;相同温度下,单体官能度愈高,体系凝胶时间亦愈短.

References

[1]	3 Bunning T J,Natarajan L V,Tondiglia V P,Sutherland R L,Haaga R,Adams W W.Proc SPIE,1996,2651:44~55
[2]	4 White T J,Natarajan L V,Tondiglia V P,Lloyd P F,Bunning T J,Guymon C A.Polymer,2007,48:5979~5987
[3]	5 Ogiwara A,Watanabe M,Mabuchi T,Kobayashi F.Appl Opt,2011,50:6369~6376
[4]	6 White T J,Natarajan L V,Tondiglia V P,Bunning T J,Guymon C A.Macromolecules,2007,40:1112~1120
[5]	11 Peng Haiyan(彭海炎),Shi Xiaojing(史小靖),Liao Yonggui(廖永贵),Chen Diantian(陈甸田),Wang Shaopan(王少攀),Xie Xiaolin(解孝林).Acta Polymerica Sinica(高分子学报),2012,(1):41~46
[6]	12 Yagci Y,Jockusch S,Turro N J.Macromolecules,2010,43:6245~6260
[7]	13 Peng Haiyan(彭海炎),Bi Shuguang(毕曙光),Liao Yonggui(廖永贵),Zhou Xingping(周兴平),Xie Xiaolin(解孝林).Chem J Chin Univ-Chin(高等学校化学学报),2012,33:640~644
[8]	14 Decker C,Decker D,Morel F.Photopolymerization-Fundamentals and Applications [M],Edited by Scranton A B,Bowman C N,Peiffer R W.Washington,DC:American Chemical Society,1996.63~80
[9]	15 Nwabunma D,Kim K J,Lin Y H,Chien L C,Kyu T.Macromolecules,1998,31:6806~6812
[10]	16 Woo J Y,Kim B K.ChemPhysChem,2007,8:175~180
[11]	18 Liu Y J,Sun X W,Dai H T,Liu J H,Xu K S.Opt Mater,2005,27:1451~1455
[12]	19 White T J,Liechty W B,Natarajan L V,Tondiglia V P,Bunning T J,Guymon C A.Polymer,2006,47:2289~2298
[13]	21 White T J,Liechty W B,Guymon A.J Polym Sci Pol Chem,2007,45:4062~4073
[14]	28 Scott T F,Kowalski B A,Sullivan A C,Bowman C N,McLeod R R.Science,2009,324:913~917
[15]	1 Seo M, Hillmyer M A.Science,2012,336:1422~1425
[16]	2 Bunning T J,Natarajan L V,Tondiglia V P,Sutherland R L.Annu Rev Mater Sci,2000,30:83~115
[17]	7 Duran H,Meng S,Kim N,Hu J,Kyu T,Natarajan L V,Tondiglia V P,Bunning T J.Polymer,2008,49:534~545
[18]	8 Meng S,Duran H,Hu J,Kyu T,Natarajan L V,Tondiglia V P,Sutherland R L,Bunning T J.Macromolecules,2007,40:3190~3197
[19]	9 De Sarkar M,Gill N L,Whitehead J B,Crawford G P.Macromolecules,2003,36:630~638
[20]	10 Shi Xiaojing(史小靖),Peng Haiyan(彭海炎),Liao Yonggui(廖永贵),Xie Xiaolin(解孝林).Chem J Chin Univ-Chin(高等学校化学学报),2011,32:1407~1411
[21]	17 Klosterman J,Natarajan L V,Tondiglia V P,Sutherland R L,White T J,Guymon C A,Bunning T J.Polymer,2004,45:7213~7218
[22]	20 White T J,Natarajan L V,Bunning T J,Guymon A.Liq Cryst,2007,34:1377~1385
[23]	22 Winter H H,Chambon F.J Rheol,1986,30:367~382
[24]	23 Zhang Qibin(张其斌),Song Yihu(宋义虎),Zheng Qiang(郑强).Acta Polymerica Sinica(高分子学报),2008,(2):136~140
[25]	24 Guan Aizhi(管爱枝),Song Yihu(宋义虎),Tan Yeqiang(谭业强),Zheng Qiang(郑强).Acta Polymerica Sinica(高分子学报),2011,(2):224~229
[26]	25 Chiou B S,English R J,Khan S A.Macromolecules,1996,29:5368~5374
[27]	26 Zhang H,Yu L,Ding J.Macromolecules,2008,41:6493~6499
[28]	27 Hu J,Ge Z,Zhou Y,Zhang Y,Liu S.Macromolecules,2010,43:5184~5187

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