OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

高分子学报 2012

核/壳纳米复合粒子填充聚苯乙烯的流变行为

DOI: 10.3724/SP.J.1105.2012.12060, PP. 1335-1341

殷先泽,谭业强,林雷,宋义虎,郑强

Keywords: 核/壳粒子,细乳液聚合,增强

Full-Text Cite this paper Add to My Lib

Abstract:

采用细乳液聚合制备了以偶联剂改性纳米二氧化硅粒子(SiO2)为核、交联聚苯乙烯(PS)为壳的SiO2@PS复合纳米粒子(SCCSN).采用透射电子显微镜(TEM)、动态光散射(DLS)法考察了SCCSN的粒子形貌特征,发现SCCSN呈球形,粒径约90nm,均匀分散;采用热失重(TG)、调制式差示扫描量热(MDSC)与动态力学分析(DMA)研究了SCCSN的结构特征,发现PS包覆率随交联剂含量增加而升高,且玻璃化转变温度(Tg)显著升高.交联壳层不仅能够将聚合物锚固在SiO2表面,屏蔽SiO2粒子与基体PS间相互作用,而且阻止PS壳层与基体PS分子链间的缠结.MDSC结果显示,SiO2与SCCSN填充可降低复合物Tg.动态流变结果表明,填充PS熔体非线性流变行为与PS分子链解缠结有关,SiO2与SCCSN均不影响填充熔体非线性流变机理.SCCSN的SiO2核对PS的增强效应略优于SiO2,且增强效应与壳层交联度有关.

References

[1]	1 Zheng J Z, Zhou X P,Xie X L,Mai Y W.Nanoscale,2010,2:2269~2274
[2]	2 Chloe C,Florent D,Emanuela D C,Didier G,Denis B,Francois B,Jacques J.Macromolecules,2011,44:122~133
[3]	3 Yin X Z,Tan Y Q,Song Y,Zheng Q.Chinese J Polym Sci,2012,30(1):26~35
[4]	4 Gregor H,Thomas A V.Macromolecules,2002,35:9204~9210
[5]	5 Mathieu B,Marianna K,Khalij E M.Polymer,2010,51:5506~5515
[6]	9 Ishizu K,Kayakawa N,Takano S,Tokuno Y,Ozawa M.J Polym Sci Part A:Polym Chem,2007,45:1771~1777
[7]	10 Liu Wenfang(刘文芳),Guo Zhaoxia(郭朝霞),Yu Jian(于建).Acta Polymerica Sinica(高分子学报),2006,(1):59~64
[8]	11 Zhu X N,Song Y,Zheng Q.Chinese J Polym Sci,2012,30(2):316~327
[9]	12 Yin X Z,Tan Y Q,Chen Y Y,Song Y,Zheng Q.Polym Int,2012,61:1439~1446
[10]	13 Boucher V M,Cangialosi D,Alegria A,Colmenero J,Pastoriza-Santos I,Liz-Marzan L.Soft Matter,2011,7:3607~3620
[11]	14 Ash B J,Schadler L S,Siegel R W.Mater Lett,2002,55:83~87
[12]	17 Song Y,Zheng Q.Polymer,2011,52:593~596
[13]	18 Mackay M E,Dao T T,Tuteja A,Ho D L,van Horn B,Kim H C,Hawker C J.Nat Mater,2003,2:762~766
[14]	19 Mackay M E,Tuteja A,Duxbury P M,Hawker C J,van Horn B,Guan Z,Chen G,Krishnan R S.Science,2006,24:1740~1743
[15]	20 Sun J,Song Y,Zheng Q,Tan H,Yu J,Li H.J Polym Sci Part B:Polym Phys,2007,45:2594~2602
[16]	21 Osman M A,Atallah A,Schweizer T,Ottinger H C.J Rheol,2004,48:1167~1184
[17]	22 Rault J,Marchal J,Judeinstein P,Albouy P A.Macromolecules,2006,39:8356~8368
[18]	23 Mullins L,Tobin N R.J Appl Polym Sci,1965,9:2993~3009
[19]	24 Mansoutre S,Colombet P,van Damme H.Cement Concrete Res,1999,29:1441~1453
[20]	25 Zheng Q,Du M,Yang B,Wu G.Polymer,2001,42:5743~5747
[21]	6 Moll J F,Pinar A,Atri R,Gong S,Colby R H,Benicewicz B C,Kumar S K.Macromolecules,2011,44:7473~7477
[22]	7 Akcora P,Kumar S K,Moll J,Lewis S,Schadler L S,Li Y,Benicewicz B C,Sandy A,Narayanan S,Illavsky J,Thiyagarajan P,Colby R H,Douglas J F.Macromolecules,2010,2:1003~1110
[23]	8 Akcora P,Kumar S K,Sakai V G,Li Y,Benicewicz Brian C,Schadler L S.Macromolecules,2010,43:8275~8281
[24]	15 Moll J,Kumar S K.Macromolecules,2012,45:1131~1135
[25]	16 Song Y,Zheng Q.Polymer,2010,51:3262~3268

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133