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研究生: 張容瑋
Rong-wei Chang
論文名稱: 以RAFT活自由基聚合法合成用於不飽和聚酯樹脂之核殼型橡膠及無機/有機核殼型顆粒添加劑
Synthesis of Core-Shell Rubber and Inorganic/Organic Core-Shell Particle as Additives by RAFT Living Free Radical Polymerizations for Unsaturated Polyester Resins
指導教授: 黃延吉
Yan-Jyi Huang
口試委員: 陳崇賢
Chorng-Shyan Chern
邱文英
Wen-Yen Chiu
學位類別: 碩士
Master
系所名稱: 工程學院 - 化學工程系
Department of Chemical Engineering
論文出版年: 2008
畢業學年度: 96
語文別: 中文
論文頁數: 84
中文關鍵詞: 可逆加成-斷裂鏈轉移鏈轉移劑
外文關鍵詞: reversible addition-fragmentation chain transfer, chain transfer agent
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    • 本文以可逆加成-斷裂鏈轉移之活自由基聚合作用(RAFT)合成不飽和聚脂的特殊添加劑,無機/有機核殼型顆粒(CSP),以減少聚合固化後之體積收縮,做為抗體積收縮劑。進行RAFT聚合法之前,吾人須先合成出具化學結構Z-C(=S)-S-R之鏈轉移劑,並以FTIR、1H-NMR及DSC對其進行鑑定,證實合成成功。
    將鏈轉移劑BSPA接枝於無機之矽膠表面(即Si-BSPA)之後,再將Si-BSPA經由RAFT途徑聚合有機之丙烯酸甲酯單體,而產生均聚合物接枝於矽膠上,形成無機/有機核殼型顆粒(CSP)。反應過程中添加自由之鏈轉移劑在整個聚合作用期間可改善接枝聚合物之分子量及分子量分佈。

    Synthesis of inorganic/organic core-shell particle (CSP) as low-profile additives for unsaturated polyester resins by RAFT living free radical polymerizations has been studied in this work. Before the RAFT polymerization, the chain transfer agent with a chemical structure of Z-C(=S)-S-R was synthesized first. The synthesized chain transfer agent was then characterized by using FTIR、1H-NMR and DSC to confirm its structure.
    The chain transfer agent (CTA), namely, BSPA, was bonded onto the inorganic silica particles. The silica-supported BSPA was then used to mediate RAFT polymerization of methyl acrylate to produce homopolymer grafted silica, known as inorganic/organic core-shell particle (CSP). It was found that the introduction of a free CTA in solution during polymerization could significantly improve the control on molecular weight and polydispersity of grafted polymers.

    中文摘要 Ⅰ 英文摘要 Ⅱ 誌謝 Ⅲ 目錄 IV 圖表索引 VII 第一章 緒論 1 1-1高分子複合材料 1 1-2不飽和聚酯 2 1-3乙烯基酯樹脂 3 1-4抗收縮劑 4 1-5增韌劑 5 1-6研究籌範 7 第二章 文獻回顧 8 2-1不飽和聚酯與苯乙烯之交聯共聚合反應 8 2-2溶液聚合法 12 2-3自由基聚合法 13 2-4活性自由基聚合法 16 2-5原子轉移自由基聚合法 18 2-6穩定自由基聚合法 20 2-7可逆加成-斷裂鏈轉移聚合法 22 第三章 實驗方法與設備 25 3-1 實驗藥品 25 3-2實驗儀器 27 3-3實驗方法 29 3-3-1丙烯酸甲酯單體的純化 29 3-3-2AIBN起始劑的純化 30 3-3-3冷凍-抽氣-解凍法 30 3-3-4鏈轉移劑之合成反應式 30 3-3-5鏈轉移劑3-benzylsulfanylthiocarbonylsufanylpropionic acid(BSPA)的合成及純化 30 3-3-6矽膠接枝聚合物之合成反應式 31 3-3-7矽膠接枝聚合物之合成 32 3-3-7-1活化矽膠粒子 32 3-3-7-2矽膠接枝鏈轉移劑之合成 33 3-3-7-3RAFT聚合作用合成矽膠接枝聚合物 33 3-3-7-4胺解分開接枝聚合物 35 3-4結構鑑定 35 3-4-1傅立葉轉換紅外線光譜儀 35 3-4-2核磁共振光譜儀 36 3-4-3常壓式熱分析儀 37 3-4-4元素分析 38 3-4-5熱重分析儀 38 3-4-6凝膠滲透層析儀 38 第四章 結果與討論 40 4-1鏈轉移劑的合成與結構分析 40 4-1-1鏈轉移劑合成反應探討 40 4-1-2鏈轉移劑之FTIR結構分析 42 4-1-3鏈轉移劑之NMR結構分析 44 4-1-4鏈轉移劑之DSCR結構分析 47 4-2矽膠接枝聚合物之合成與結構分析 48 4-2-1矽膠接枝聚合物之反應探討 48 4-2-2活化矽膠之結構分析 50 4-2-3矽膠接枝鏈轉移劑之結構分析 51 4-2-4矽膠接枝聚丙烯酸甲酯之分析 55 4-3RAFT聚合作用矽膠接枝丙烯酸甲酯之反應探討 64 第五章 結論 66 第六章 參可文獻 68 第七章 附錄 71

    1. R.B. Burns , “Polyester Molding Compounds ,” Marcel Dekker , New York , 1982.
    2. K.E.Atkins, in“Sheet Molding Compounds:Science and Technology, Ch.4”,ed.,H.G.Kia,Hanser Publishers, New York, 1993.
    3. Y.J.Huang and C.M.Liang,Polymer,37,401(1996).
    4. Y.J.Huang,C.J.Chu, and J.P.Dong,J.Appl.Polym.Sci.,78,543(2000).
    5. Y.J.Huang,T.S.Chen,J.G.Huang, and F.H.Lee, Polym. Mater.Sci.Eng. 83,493(2000).
    6. Y.J.Huang,J.P.Dong,J.J.Yang,J.H.Lee,and D.H.Lai, Polym.Mater.Sci. Eng. 85,497(2001).
    7. The B.F.Goodrich Co.,WO93/21274(Oct.28,1993).
    8. E.Martuscelli,P.Musto,G.Ragosta,G.Scarinzi,and E.Bertotti,J.Polym.Sci.,PartB: Polym.Phys.,31,619(1993).
    9. S.B.Pandit,and V.M.Nadkarni,Ind.Eng.Chem.Res.,33,2778(1994).
    10. D.S.Kim,K.Cho,J.H.An, and C.E.Park,J.Mater.Sci.,29,1854(1994).
    11. J.S.Ullett, and R.P.Chartoff,Polym.Eng.Sci.,35,1086(1995).
    12. M.Abbate,E.Mrtuscelli,P.Musto,G.Ragosta,and G.Scatinzi,J.Appl.Polym.Sci.,58,1825(1995).
    13. M.L.L.Maspoch, and A.B.Martinez,Polym.Eng.Sci.,38,2909(1998).
    14. (a)N.A.Miller, and C.D.Stirling,Polym.Polym.Copms.,9,31(2001). (b)R.E.Young, in“Unsaturated Polyester Technology,”ed. P.F.Bruins, Gordon and Breach Science Publishers, New York, 1976. (c) M.E.Kelly, in“Unsaturated Polyester Technology,”ed. P.F.Bruins, Gordon and Breach Science Publishers, New York, 1976, p.370. (d) F.Fekete, in“Unsaturated Polyester Technology,”ed. P.F.Bruins, Gordon and Breach Science Publishers, New York, 1976,p.370.
    15. T. Mitani, H.Shiraish, K. Honda, and G. E. Owen in 44th Annual Conference, Composites Institute, the Society of the Plastics Industry(SPI), Washington, D. C., 1989, P.12F.
    16. W. Li and L. J. Lee, Polymer, 39, 5677(1998).
    17. M. Kinkelaar, S. Muzumdar, and L. J. Lee, Polym. Eng. Sci., 35, 823(1995).
    18. R. R. Hill, S. Muzumdar, L. J. Lee Polym. Eng. Sci., 35, 852(1995).
    19. E.Martuscelli,P.Musto,G.Ragosta,G.Scarinzi,and E.Bertotti,J.Polym.Sci.,PartB: Polym.Phys.,31,619(1993).
    20. S.B.Pandit,and V.M.Nadkarni,Ind.Eng.Chem.Res.,33,2778(1994).
    21. Crc for Polymers Pty.Ltd.,WO97/43339(Nov.20,1997).
    22. J.Chiefare,Y.K.(Bill) Chong,F.Ercole,J.Krstina,J.Jeffery, T.P.T.Le, R.T.A.Mayadunne,G.F.Meijs,C.L.Moad,G.Moad,E.Rizzardo, and S.H.Thang,Macromolecules,31,5559(1998).
    23. T.P.Le,G.Moad,E.Rizzardo, and S.H.Thang,PCT Int.Appl.WO9801478 A1980115,1998.
    24. Y. S. Yang and L. J. Lee, Polymer, p.29 ,1793 (1988).
    25. K. Horie, I. Mita, and H. Kambe, J. Polym. Sci. PartA-1: Polym. Chem., 7, 2561 (1969).
    26. 江文慶,碩士論文,國立台灣科技大學,1996.
    27. S.L.Rosen. ”Fundamental Principles of Polymeric Materials”,2 nd Ed. J. Wiley&Sons, N.Y.,1993,221-222.
    28. 廖平喜,聚合物化學,高立圖書有限公司,台北, 1997.
    29. 彭俊昇,碩士論文,國立台灣科技大學,2000.
    30. H.R. Allcock and F.W. Lampe.,”Contemporary Polymer Chemistry”,2nd Ed., Prentice Hall, Englewood Cliffs, New Jersey,1990, p. 50.
    31. M ,Szwarc.Nature(London),178,1168(1956).
    32. T. Otsu, M.Yoshida, Makromol Chem, Rapid Commun., 3,127(1982).
    33. K.Matyjaszewski, J.Xia, Chem. Rev., 101, 2921(2001).
    34. J.S.Wang, K.Matyjaszewski, ,J.Am.Chem.Soc.,117,5614(1995).
    35. M.Kamigaito, T.Ando,;M. Sawamoto, Chem. Rev., 101, 3689 (2001).
    36. D. H. Solomon, E. Rizzardo and P. Cacioli, US Patent 4, 581, 429(1985).
    37. M. K. Georges, R. P. N. Veregin, P. M. Kazmaier and G. K. Hamer, Macromolecules, 26, 2987 (1993).
    38. R.Francis,D.Taton,J.Logan,P.Masse,Y.Gnanou,and R.S.Duran, Macromolecules,86,8253(2003).
    39. J. Chiefari, Y. K. Chong, F. Ercole, J. Krstina, J. Jefery, T. P. T. Le, R. T. A. Mayadunne, G. F. Meijs, C. L. Moad, G. Moad, E. Rizzardo, S. H. Thong, Macromolecules, 31, 5559 (1998).
    40. P.Takolpuckdee, C. A.Mars, S.Perrier, Org. Lett., 7, 3449(2005).
    41. Y.Tsujii, M.Ejaz, K.Sato, A.Goto, and T.Fukuda, Macromolecules , 34, 8872(2001).
    42. D.L.Patton, and R.C.Advincula, Macromolecules, 39, 8674 (2006).
    43. R.Narain, and S.P.Armes, Macromolecules,36,4675(2003).
    44. M. H.Stenzel, T. P.Davis, and A. G.Fane, J Mater Chem, 13, 2090(2003).
    45. M. H. Stenzel and T. P. Davis, J. Polym. Sci., Part A: Polym.Chem., 40, 4498(2002).
    46. J.L.Zhu, X.Z.Zhang, H.Cheng, Y.Y. Li, S.X.Cheng, and R.X. Zhuo, J. Polym. Sci., Part A: Polym.Chem.,45,5354(2007)
    47. H.Zheng, D.Zhang, W.Y.Wang, Y.Q.Fan, J.Li, H.P.Han, Microchim Acta 157, 7(2007)
    48. X.Jiang, W.Tian, C.Zhao, H.Zhang, and M.Liu, Talanta ,72, 119(2007).
    49. X.Mao, L.Kong, X.Li, B.Guo, and H.Zou, Anal Bioanal Chem 375,550(2003).
    50. Y. Zhao, and S. Perrier, Macromol. Symp, 248, 94(2007).
    51. Y. Zhao, and S. Perrier, Macromolecules, 39, 8603 (2006).
    52. Z. Wang, J. He, Y. Tao, L. Yang, H.Jiang, and Y. Yang, Macromolecules, 36, 7446 (2003).

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