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OALib Journal期刊
ISSN: 2333-9721
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极少量1,4-戊二烯对典型Ziegler-Natta催化剂催化的丙烯聚合反应及聚丙烯性质的影响
DOI: 10.11777/j.issn1000-3304.2015.14309, PP. 410-417
Keywords: Ziegler-Natta催化剂,丙烯,1,4-戊二烯,共聚合
Abstract:
以9,9-二(甲氧基甲基)芴(BMMF)为内给电子体的MgCl2/TiCl4催化剂与三乙基铝(TEA)组成典型Ziegler-Natta催化剂体系,催化丙烯本体聚合,考察极少量1,4-戊二烯作为共聚单体对聚合反应行为的影响.结果发现,在[1,4-戊二烯]/[丙烯]共单体摩尔比非常低(<0.1%)的范围内,随着1,4-戊二烯浓度增大,催化剂活性迅速降低,[1,4-戊二烯]/[丙烯]比为0.08%时仅为约初始的1/4.但由特性黏数得到的聚合物分子量对1,4-戊二烯浓度呈现不规则变化,1,4-戊二烯并未使聚合物分子量单调降低,而在极低浓度时反而使其有所提高.凝胶渗透色谱(GPC)表征结果不但进一步确认了聚合物分子量的变化规律,还表明1,4-戊二烯并未使聚合物链发生支化.动态剪切流变测试结果显示极少量的1,4-戊二烯使聚合物的剪切黏度上升,模量提高,松弛时间延长;聚合物的拉伸黏度在拉伸流变测试中呈现相同的规律.通过1,4-戊二烯/氢气在聚合反应中协同作用的探讨,提出了对MgCl2/TiCl4/BMMF-TEA催化的丙烯/1,4-戊二烯反常共聚合行为的解释.
| [1] | 7 Hiromichi K,Yuuri Y,Aki F,Emika K,Masato S,Naofumi N.J Mol Struct,2009,921:208~214
|
| [2] | 8 Naofumi N,Genzo K,Akinori T.Polymer,2006,47:6081~6090
|
| [3] | 9 Kim I,Shin Y S,Lee J K.J Polym Sci,Part A:Polym Chem,2000,38:1590~1598
|
| [4] | 10 Kim I,Shin Y S,Lee J K.Polymer,2001,42:9393~9403
|
| [5] | 11 Choo T N,Waymouth R M.J Am Chem Soc,2002,124:4188~8189
|
| [6] | 12 Antti T,Jan L E,Jukka V,Erling R.Polymer,2007,48:2793~2805
|
| [7] | 13 Naofumi N,Shiono T,Ikeda T.Macromolecules,1999,32:1348~1355
|
| [8] | 14 Mariagrazia N,Chiara C,Stefania P,Pasquale L.Macromolecules,2005,38:5493~5497
|
| [9] | 15 Ye Z,Fahad A,Zhu S.Ind Eng Chem Res,2004,43:2860~2870
|
| [10] | 16 Ma Lin(马琳),Qin Yawei(秦亚伟),Dong Jinyong(董金勇).Acta Polymerica Sinica(高分子学报),2014,(12):1587~1593
|
| [11] | 17 Kinsinger J B,Huges R E.J Phys Chem,1959,63:2002~2007
|
| [12] | 18 Chadwick J C,Rastogi S,Busico V,Cipullo R,Talarico G,Heere J J R.Macromolecules,2004,37:9722~1355
|
| [13] | 19 Yaluma A K,Chadwick J C,Tait P J T.Macromol Symp,2007,260:15~20
|
| [14] | 20 Bi F,He A,Li H,Hu Y,He Z,Han C C.Polym Int,2011,60:1167~1172
|
| [15] | 21 Luigi R,Luigi C,Anna F,Fabrizio P.Chem Rev,2000,100:1253~1345
|
| [16] | 22 Wang L,Wan D,Zhang Z,Liu F,Xing H,Wang Y,Tang T.Macromolecules,2011,44:4167~4179
|
| [17] | 23 Zhao W,Huang Y,Liao X,Yang Q.Polymer,2013,54:1455~1462
|
| [18] | 24 Philip W,Stefan T,Dieter L,Christian F,Rolf M.Macromol Mater Eng,2001,1486:309~315
|
| [19] | 25 Chen Y,Li H.Polymer,2005,46:7707~7714
|
| [20] | 26 Zheng Qiang(郑强),Yang Bibo(杨碧波),Wu Gang(吴刚).Chem J Chinese U(高等学校化学学报),1999,20:1483~1490
|
| [21] | 27 Zhou chixing(周持兴).Experiment and application of polymer rheology(聚合物流变实验与应用).Shanghai(上海):Shanghai Jiao Tong University Press(上海交通大学出版社),2003.63~65
|
| [22] | 28 El M K,Parent J S,Chaudhary B I.Polymer,2009,50:5390~5397
|
| [23] | 29 Malmberg A,Gabriel C,Steffl T.Macromolecules,2001,35:1038~1048
|
| [24] | 30 Gotsis A D,Zeevenhoven B L F,Tsenoglou C.J Rheol,2004,48:895~914
|
| [25] | 31 Li S,Xiao M,Guan Y,Wei D,Xiao H,Zheng A.Eur Polym J,2012,48:362~371
|
| [26] | 1 Zhu F,Fang Y, Chen H.Macromolecules,2000,33:5006~5010
|
| [27] | 2 Galland G,Quijada R,Rojas R.Macromolecules,2002,35:339~345
|
| [28] | 3 Sperber O,Kaminsky W.Macromolecules,2003,36:9014~9019
|
| [29] | 4 Bianchini C,Frediani M,Giambastiani G.Macromol Rapid Commun,2005,26:1218~1223
|
| [30] | 5 Wang W,Yan D,Charpentier P.Macromol Chem Phys,1998,199:2409~2416
|
| [31] | 6 Weng W,Hu W,Dekmezian A.Macromolecules,2002,35:3838~3843
|
| [32] | 32 Huang H H,Cao C G,Niu H,Dong J Y.J Polym Sci,Part A:Polym Chem,2010,48:3709~3713
|
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