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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 900Synthesis and Application of Fluorosilicone...

Synthesis and Application of Fluorosilicone Polymer

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Abstract:

The structure, properties, synthesis methods and application of siloxane fluorinated polyacrylate polymers,side chain fluorinated silicone polymer and fluoro-silicone block copolymers are discussed. Fluorosilicone polymers has excellent physical property such as low and high temperature resistance, hydrophobic oleophobic property, lubricity etc. It is an advanced material.

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Advanced Materials and Processing Technologies: IFMPT 2014

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Periodical:

Advanced Materials Research (Volume 900)

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365-377

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.900.365

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Online since:

February 2014

Authors:

Xi Tao Cheng*, Wen Hong Li, Cun She Zhang, Yan Bai

Keywords:

Application, Fluorosilicone Polymer, Synthesis

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© 2014 Trans Tech Publications Ltd. All Rights Reserved

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[1] HuYan, Kazutomo Kurogi, KaoruTsujii: Colloids and Surfaces A. Vol. 292 (2007), p.27–31.

[2] Liangliang Cao, Tyler P. Price, Michael Weiss, et al: Langmuir. Vol. 24 (2008), pp.1640-1643.

[3] Jiqing Huang, Weidong Meng, Fengling Qing: J. Fluor. Chem. Vol. 128 (2007), p.1469–1477.

[4] Xiaodong Zhou: Scientific Experiment. Vol. 6 (2003), pp.18-12. (in Chinese).

[5] Haixin Zhang, Hairong Wang, Mifang Gong: Chemical Propellants & Polymeric Materials. Vol. 2 (2004), pp.37-38. (in Chinese).

[6] Yiding Shen, Xin Tang, Ganghui Li: Fine Chemicals. Vol. 26 (2009), pp.711-714. (in Chinese).

[7] Ling He, Yan Xu, Jinggan Zhu, et al: Chem J Chinese U. Vol. 29 (2008), pp.187-192. (in Chinese).

[8] Ameduri B, Boutevin B, Pietrasantaf G, et al: J Polym Sci, Part A. Vol. 34 (1996), pp.3077-3090.

[9] Boutevin B, Pietrasantalf G, Ratsimihetya: J Polym Sci, Part A. Vol. 38 (2000), pp.3722-3728.

[10] Hideo Sawada: Chemical Review. Vol. 96 (1996), pp.1779-1808.

[11] Norio Yoshino, Akihiro Sasaki, Tsuyoshi Seto: J. Fluor. Chem. Vol. 71 (1995), p.21–29.

[12] Changfeng Yi, Junping Guo, qing Gao: Polymer Bulletin. Vol. 7 (2006), p.77–81. (in Chinese).

[13] Inoue H, Matsumoto A, Matsukawa K, et al: J Appl Polym Sci. Vol. 40 (1990), p.1917–(1938).

[14] Chen X, Gardella J A J, Kumler P L: Macromolecules. Vol. 25 (1992), p.6621–6630.

[15] Linbing Huang, Xiaoli Zhan, lingmin Yi, et al: Polymer Materials Science & Engineering. Vol. 22 (2006), p.141–144. (in Chinese).

[16] Uyanik N, Yalcinkaya H, Kizilcan N: Surf Coat Int, Part B. Vol. 84 (2001), p.309–316.

[17] Bertolucci M, Galli G, Chiellini E, et al: Macromolecules. Vol. 37 (2004), p.3666–3672.

[18] Rosati D, Loon B V, Navard P: Polymer. Vol. 41 (2000), p.367–375.

[19] Wenbin Ban, Weiqu Liu, Deyan Shen, et al: Journal of East China University of Science and Technology(Natural Science Edition). Vol. 32 (2006), p.643–647. (in Chinese).

[20] Yuanyuan Li, Guo Zheng, Lei Huang: Journal of tianjin polytechnic university. Vol. 24 (2005). p.40–43. (in Chinese).

[21] Licheng Yan, Guoqiao Lai, Lihua Bao. Journal of Hangzhou Teachers College(Natural Science Edition). Vol. 19 (2002), p.39–43. (in Chinese).

[22] Baysal B M, Uyanik N, Hamurcu E E, et al: J Appl Polym Sci. Vol. 60 (1996), p.1369–1378.

[23] Uyanik, N: J Appl Polym Sci. Vol. 64 (1997), p.1961–(1969).

[24] Furukawa Y, Kotera M: J Polym Sci Part A. Vol. 40 (2002), p.3120–3128.

[25] Thorpe A A, Peters V, Smith J R, et al: J. Fluorine Chem. Vol. 104 (2000), p.37–45.

[26] Sibouklis JT, Stone M, Thorpe A A, et al: Int. J. Adhes. Adhes. Vol. 20 (2000), p.91–96.

[27] Kim D K, Lee S B , Doh K S , et al: J Appl Polym Sci. Vol. 74 (1999), p.1917–(1926).

[28] Sawadah, Suzukim, Mugisawam: Polym Adv Technol. Vol. 17 (2006), p.66–69.

[29] Shiho. H, Desimone J M: J Polym Sci, Part A. Vol. 38 (2000), p.1139–1145.

[30] Xing Wang, Wei Li, XinFa Li: China Plastics Industry. Vol. 39 (2011), p.69–72. (in Chinese).

[31] Boutevin B, Abdellah L, Dinia M N: Eur. Polym.J. Vol. 31 (1995), p.1127–1133.

[32] Bontevin B, Caporiceio G, Pietrasantal F G, et al: Macromol. Chem. Phys. Vol. 199 (1998), p.61–70.

[33] Suzuki H, Takeishi M, Narisawa I: J. Appl. Polym. Sci. Vol. 78 (2000), p.1955–(1963).

[34] Le T P, Moad G, Rizzardo E, et al: W.O. Patent 9, 801, 478, (1998).

[35] Rizzardo E, Chiefari J, Chong YK, et al: Macromol Symp. Vol. 143 (1999), p.291–307.

[36] J W Li, L M Yi, H M Lin, et al: J Polym Sci Part A. Vol. 49 (2011), p.1483–1493.

[37] Pai T S C, Barner-Kowollik C, Davis T P, et al: Polymer. Vol. 45 (2004), p.4383–4389.

[38] Wadley M L, Cavicchi K A: J Appl Polym Sci. Vol. 115 (2010), p.635–640.

[39] Pavlović D, Linhardt J G, Künzler J F, et al: J Polym Sci Part A. Vol. 46 (2008), p.7033–7048.

[40] J S Wang, Matyjaszewski K: Macromolecules. Vol. 28 (1995), p.7900–7910.

[41] J S Wang, Matyjaszewski K: J Am Chem Soc. Vol. 117 (1995), p.5614–5615.

[42] Greszta D, Mardare D, Matyjaszewski K: Macromolecules. Vol. 27 (1994), p.638–644.

DOI: 10.1021/ma00081a002

[43] Xia Xu, Tieling Xing: Materials Review. Vol. 24 (2010), p.89–93.

[44] Minisci F: Accounts of Chemical Research. Vol. 8 (1975), p.165–171.

[45] Gossage R A , Van De Kuil L A, Van Koten G: Acc Chem Res. Vol. 31 (1998), p.423–431.

[46] Matyjaszewski K, J H Xia: Chemical Reviews. Vol. 101 (2001), p.2921–2990.

[47] F Guo, Jankova K, Schulte L, et al: Macromolecules. Vol. 41 (2008), p.1486–1493.

[48] Miller P J, Matyjaszewski K: Macromolecules. Vol. 32 (1999), p.8760–8767.

[49] Huan K, Bes L, Haddleton D M, et al: J Polym Sci Part A. Vol. 39 (2001), p.1833–1842.

[50] Neugebauer D, Zhang Y, Pakula T, et al: Macromolecules. Vol. 38 (2005), p.8687–8693.

[51] Zhenjie Wu, Guorui Xu: Liaoning Chemical Industry. Vol. 32 (2003), p.751. (in Chinese).

[52] Sheng Wang, Baolong Wang, Cunxiao Wang: Chinese Patent 1, 281, 643( 2006). (in Chinese).

[53] Cunxiao Wang, Shen Wang, Baolong Wang: Chinese Patent 1, 432, 613( 2003). (in Chinese).

[54] Fengling Qing, Changqing Wei: Chinese Patent 1, 183, 185(2005). (in Chinese).

[55] Xinshuo Liu, Zhaogui Zhang, Ting Huang: Silicone Materiel. Vol. 17 (2003), p.26–29.

[56] Yuhua Zeng: Fluorocarbon Surfactant(Chemical Industry Press, Beijing 2001). (in Chinese).

[57] Franz M: Europe Patent 380, 972(1990). (in Chinese).

[58] Guotuan Gu, Zhijun Zhang, Hongxin Dang: Tribology. Vol. 22 (2002), p.170–173.

[59] Songmin Xing, Yilu Wang: Synthesis technology of Organic silicon and product application(Chemical Industry Press, Beijing, 2000). (in Chinese).