Polymers and Polymer Matrix Composites |
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Progress in Preparation and Properties of POSS/Silicone Rubber Composite |
WANG Feng*, PENG Dan, MU Qiuhong, ZHANG Fangzhi, LI Bing, ZHANG Shuo, YU Yitao, LI Jinhui, ZHAO Ning
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Shandong Provincial Key Laboratory of Special Silicon-Containing Materials, Advanced Materials Institute, Qilu University of Technology (Shandong Academy of Sciences), Jinan 250014, China |
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Abstract In recent years, the modification of polymers with polyhedral oligomeric silsesquioxane (POSS) has become a focus of new generation polymer materials. POSS was added into silicone rubber as functional filler to prepare POSS/silicone rubber composites, which was the key direction of modified silicone materials, and has attracted more and more attention. Compared with other filler particles, POSS has unique nano-size organic-inorganic hybrid structure, and can be dispersed in matrix at the level of individual molecule, which lead to the dramatic improvement in properties of silicone rubber materials, and greatly expand their application scope. POSS molecule has a cage-like core similar to SiO2, which gives it excellent heat resistance and mechanical properties. Therefore, POSS can significantly improve the thermal stability and mechanical properties of silicone rubber materials. In recent years, with the emergence of new POSS, the performance of POSS/silicone rubber composites was constantly optimized and their applications were expanding. As a silicon flame retardant, POSS has obtained good application in silicone rubber insulation materials. The introduction of fluorinated POSS monomer into silicone rubber can significantly reduce the dielectric constant of silicone rubber, and the composite can be used as low dielectric materials with excellent properties. PDMS mixed matrix membranes (MMMs) using POSS as filler particles have advantages of organic and inorganic membranes, and high thermal stability. It has shown good application prospects in gas separation and bio-ethanol recovery from aqueous solutions, etc. However,POSS molecules tend to crystallize at room temperature, which result in poor dispersion stability and affect the properties of compo-site. Large amount of studies have focused on the dispersibility of POSS in silicone rubber. According to the dispersion mechanism, the effects of process conditions and POSS type on dispersion were investigated. The relationship between dispersion and performance was studied, and signi-ficant results were obtained. In the future, more efforts should be made to clarify the dispersion mechanism of POSS in polymers and find ways to improve the dispersion stability. In this paper, the preparation methods of POSS monomer and POSS/silicone rubber composite are summarized. In addition, the progress in properties of POSS/silicone rubber composite including mechanical properties, thermal stability, flame retardancy, dielectric properties and pervaporation is reviewed. The development trend of POSS/silicone rubber composite is also prospected. In the future, with the appearance of new POSS compounds and the progress of preparation process, the properties of POSS/silicone rubber composite would achieve greater improvement, and its application field would be further expanded.
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Published: 17 November 2020
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Fund:This work was financially supported by the Key R & D Project of Shandong Province (2019GGX102076, 2019GGX102024, 2019JZZY010350, 2019JZZY010316), Industry University Research Collaborative Innovation Fund of Shandong Academy of Sciences (2018CXY-25). |
About author:: Feng Wang received his M.S. degree in material science from Shandong University in 2007. He is currently an assistant researcher in Qilu University of Technology (Shandong Academy of Sciences), Advanced Materials Institute and Shandong Provincial Key Laboratory for Special Silicon-Containing Materials. His research interests are preparation and application of silicone materials. |
|
|
[1] |
Josdi M, Butola B. Journal of Macromolecular Science Part C Polymer Reviews, 2004, 44(4), 389.
|
[2] |
Cai H, Zhang X, Xu K, et al. Polymers for Advance Technologies, 2012, 23(4), 765.
|
[3] |
Kuo S, Chang F. Progress in Polymer Science, 2011, 36(12), 1649.
|
[4] |
Striolo A, Mccabe C, Cummings P T. Journal of Physical Chemistry B, 2005, 109(30), 14300.
|
[5] |
Sun Q J, Huang Y H, Wu N, et al.Silicone Material, 2018, 32(1), 71(in Chinese).
|
|
孙全吉, 黄艳华, 吴娜, 等. 有机硅材料, 2018, 32(1), 71.
|
[6] |
Sun X L, Liu C X, Xu X J, et al.Silicone Material, 2018, 32(1), 66(in Chinese).
|
|
孙希路, 刘春霞, 许鑫江, 等. 有机硅材料, 2018, 32(1), 66.
|
[7] |
He S J, Hu J B, Zhang C, et al. Polymer Testing, 2018, 67, 295.
|
[8] |
Liu T, Ma F G.China Synthetic Rubber Industry, 2014, 37(3), 230(in Chinese).
|
|
刘涛, 马凤国.合成橡胶工业, 2014, 37(3), 230.
|
[9] |
Cordes D B, Lickiss P D, Rataboul F.Chemical Reviews, 2010, 110(4), 2081.
|
[10] |
Chen D Z, Yi S P, Wu W B, et al.Polymer, 2010, 51(17), 3867.
|
[11] |
Zhang Z, Liang G, Wang X. Polymer International, 2014, 63(3), 552.
|
[12] |
Zhang Z, Liang G, Wang X, et al. High Performance Polymers, 2013, 25(4), 427.
|
[13] |
Blanco I, Bottino F A, Abate L. Thermochimica Acta, 2016, 623, 50.
|
[14] |
Zhang T, Zhang Q, Li T, et al.New Chemical Materials, 2013, 41(3), 82(in Chinese).
|
|
张韬毅, 张倩, 李滔, 等. 化工新型材料, 2013, 41(3), 82.
|
[15] |
Liu F, Guo H, Zhao Y, et al. Polymer Degradation and Stability, DOI:10.1016/j.polymdegradstab.2019.108959.
|
[16] |
Zhang J,Luo Z, Wang W, et al. Reactive and Functional Polymers, 2019, 140, 103.
|
[17] |
Xu H, Yang B, Gao X, et al.Journal of Applied Polymer Science, 2006, 101(6), 3730.
|
[18] |
Fan H, He J, Yang R. Journal of Applied Polymer Science, 2013, 127(1), 463.
|
[19] |
Liu Y, Zheng S, Nie K. Polymer, 2005, 46(25), 12016.
|
[20] |
Pan G, Mark J E, Schaefer D W. Journal of Polymer Science Part B Polymer Physics, 2003, 41(24), 3314.
|
[21] |
Liu Y F,Zhu Z Y,Huang A M.China Plastics Industry, 2016, 44(6), 106(in Chinese).
|
|
刘玉峰, 朱志勇, 黄安民.塑料工业, 2016, 44(6), 106.
|
[22] |
Liu L, Tian M, Zhang W, et al. Polymer, 2007, 48(11), 3201.
|
[23] |
Liu L, Ming T, Liang G H, et al. Journal of Macromolecular Science, Part A: Pure and Applied Chemistry, 2007, 44(7), 659.
|
[24] |
Joshi V, Srividhya M, Dubey M, et al. Journal of Applied Polymer Science, 2013, 130(1), 92.
|
[25] |
Liu L, Zhou Z, Ding X J, et al.China Synthetic Rubber Industry, 2007, 30(4), 270(in Chinese).
|
|
刘玲, 周铮, 丁雪佳, 等.合成橡胶工业, 2007, 30(4), 270.
|
[26] |
Zhang W, Liu D, Wang Y Q.China Synthetic Rubber Industry, 2005, 28(5), 369(in Chinese).
|
|
张纬, 刘丹, 王益庆, 等.合成橡胶工业, 2005, 28(5), 369.
|
[27] |
Fan J H, Zhang K, Wu J Y.China Rubber Industry, 2013, 60(4), 202(in Chinese).
|
|
范敬辉, 张凯, 吴菊英.橡胶工业, 2013, 60(4), 202.
|
[28] |
Lu X X, Li J, Zhang B T.New Chemical Materials, 2014, 42(6), 203(in Chinese).
|
|
卢秀娴, 李坚, 张保坦.化工新型材料, 2014, 42(6), 203.
|
[29] |
Fan J H, Zhang K, Wu J Y.Silicone Material, 2011, 25(5), 318(in Chinese).
|
|
范敬辉, 张凯, 吴菊英. 有机硅材料, 2011, 25(5), 318.
|
[30] |
Sirin H, Kodal M, Karaagac B, et al.Composites Part B: Engineering, 2016, 98, 370.
|
[31] |
Yang D, Zhang W, YAO R L, et al. Polymer Degradation and Stability, 2013, 98(1), 109.
|
[32] |
Ling F W, Zhang D, Li Z H, et al. China Synthetic Rubber Industry, 2016, 39(6), 438(in Chinese).
|
|
凌方唯, 张典, 李泽华, 等.合成橡胶工业, 2016, 39(6), 438.
|
[33] |
Xue L Z, Lin X D, Ma W S, et al.Silicone Material, 2013, 27(6), 419(in Chinese).
|
|
薛亮忠, 林晓丹, 马文石, 等. 有机硅材料, 2013, 27(6), 419.
|
[34] |
Chen D Z, Yi S P, Fang P F, et al. S Reactive and Functional Polymers, 2011, 71(4), 502.
|
[35] |
Chen D Z, Liu Y, Huang C.Polymer Degradation and Stability, 2012, 97(3), 308.
|
[36] |
Chen D Z, Liu Y, zhang H W, et al. Journal of Inorganic and Organometallic Polymers and Materials, 2013, 23(6), 1375.
|
[37] |
Chen D Z, Nie J R, Yi S P, et al.Polymer Degradation and Stability, 2010, 95(4), 618.
|
[38] |
Zhang Y F, Mao Y Y, Chen D Z, et al. Polymer Degradation and Stability, 2013, 98(4), 916.
|
[39] |
Diao S, Dong F Y, Meng J, et al. Materials Chemistry and Physics, 2015, 153, 161.
|
[40] |
Dong F Y, Diao S, Ma D P, et al. Reactive and Functional Polymers, 2015, 96(96), 14.
|
[41] |
Dong F Y, Ma D P, Feng S Y.Polymer Testing, 2016, 52, 124.
|
[42] |
Dong F Y, Zhao P J, Dou R T, et al. Materials Chemistry and Physics, 2018, 208, 19.
|
[43] |
Ryu H, Kim D, Lee J, et al. Polymer, 2010, 51(11), 2296.
|
[44] |
Liu Y F, Shi Y H, Zhang D, et al. Polymer, 2013, 54(22), 6140.
|
[45] |
Zhao M, Feng Y K, Li Y, et al.Journal of Macromolecular Science Part A, 2014, 51(8), 639.
|
46 |
Zhang D, Shi Y H, Liu Y F, et al. RSC Advances, 2014, 4(78), 41364.
|
[47] |
Zhang D, Huang G S, Shi Y H, et al.Journal of Applied Polymer Science, DOI: 10.1002/app.42173.
|
[48] |
Zhang D, Liu Y F, Shi Y H, et al. RSC Advances, 2014, 4(12), 6275.
|
[49] |
Mishra K, Pandey G, Singh R P. Polymer Testing, 2017, 62, 210.
|
[50] |
Zhang W, Li Y Z, Geng H P, et al. Special Purpose Rubber Products, 2005, 26(5), 4(in Chinese).
|
|
张纬, 李延昭, 耿海萍, 等. 特种橡胶制品, 2005, 26(5), 4.
|
[51] |
Cao X X, Fan B B, He X F, et al.China Plastics, 2011(2), 13(in Chinese).
|
|
曹新鑫, 樊斌斌, 何小芳, 等.中国塑料, 2011(2), 13.
|
[52] |
Zhao S G, Feng S Y.Journal of Applied Polymer Science, 2003, 88(14), 3066.
|
[53] |
Sun J, Kong J, He C.Journal of Applied Polymer Science, DOI: 10.1002/app.46996.
|
[54] |
Wu Y L, Bai Y L, Zhang J P. Science of Advanced Materials, 2014, 6(6), 1244
|
[55] |
Lewicki J P, Liggat J J, Pethrick R A, et al.Polymer Degradation and Stability, 2008, 93(1), 158.
|
[56] |
Fan H B, Yang R J. Journal of Thermal Analysis and Calorimetry, 2014, 116(1), 349.
|
[57] |
Liu Y R, Huang Y D, Liu L.Polymer Degradation and Stability, 2006, 91(11), 2731.
|
[58] |
Liu Y R, Huang Y D, Liu L. Composites Science and Technology, 2007, 67(13), 2864.
|
[59] |
Liu Y R, Huang Y D, Liu L. Journal of Materials Science, 2007, 42(14), 5544.
|
[60] |
Ogliani E, Yu L, Mazurek P, et al.Polymer Degradation and Stability, 2018, 157, 175.
|
[61] |
Mu Q H, Peng D, Wang F, et al. Key Engineering Materials, 2017, 753, 50.
|
[62] |
Wu T Y, Qiu J D, Lai X J, et al.Polymer Degradation and Stability, 2019, 159, 163.
|
[63] |
Zhang W C, Camino G, Yang R J. Progress in Polymer Science, 2017, 67, 77.
|
[64] |
Yang N, Zeng Z, Wang X F, et al.Polymer Bulletin, 2012(12), 50(in Chinese).
|
|
杨娜, 曾智, 王雪飞, 等. 高分子通报, 2012(12), 50.
|
[65] |
Zhang Y, He J Y, Yang R J. Polymer Degradation and Stability, 2016, 125, 140.
|
[66] |
Yuan Z L. Preparation and application properties of new POSS flame retardants.Master's Thesis, Shanghai University of Engineering Science, China, 2016(in Chinese).
|
|
袁章林. 新型POSS阻燃剂的制备及其应用性能研究. 硕士学位论文, 上海工程技术大学, 2016.
|
[67] |
Jiang B Z. Study on silicone-rubber based insulaton material and application of POSS.Master's Thesis, National University of Defense Technology, China, 2011(in Chinese).
|
|
姜本正. 硅基绝热材料配方及POSS的应用探索研究. 硕士学位论文, 国防科学技术大学, 2011.
|
[68] |
Li Q, Peng P, Chen G X, et al. Journal of Materials Chemistry C, 2014, 2(39), 8216.
|
[69] |
Xu H Y, Yan Z Q, Zhang C, et al.Chemical Journal of Chinese Universities, 2011, 32(9), 1962(in Chinese).
|
|
徐洪耀, 严正权, 张超, 等.高等学校化学学报, 2011, 32(9), 1962.
|
[70] |
Zhang C, Guang S Y, Zhu X B, et al.The Journal of Physical Chemistry C, 2010, 144(51), 22455.
|
[71] |
Chen F, Wang R, Li Y, et al.Adhesion, 2015(10), 37(in Chinese).
|
|
陈凡, 王瑞, 李言, 等.粘接, 2015(10), 37.
|
[72] |
Zhong X, Meng X D, Zhang R H, et al. Acta Materiae Compositae Sinica, DOI: 10.13801/j.cnki.fhclxb. 20190122.001(in Chinese).
|
|
钟洨, 孟旭东, 张睿涵, 等.复合材料学报, DOI: 10.13801/j.cnki.fhclxb.20190122.001.
|
[73] |
Xin Y M, Wang J J, Jin K K, et al. Macromolecular Chemistry and Phy-sics, DOI: 10.1002/macp.201700010.
|
[74] |
Iacob M, Bele A, Airinei A, et al. Colloids and Surfaces A: Physicoche-mical and Engineering Aspects, 2017, 522, 66.
|
[75] |
Farno E, Rezakazemi M, Mohammadi T, et al. Polymer Engineering and Science, 2013, 54(1), 215.
|
[76] |
Marchetti P, Solomon M F, Szekely G, et al. Chemical Reviews, 2014, 114(21), 10735.
|
[77] |
Naik P V, Bernstein R, Vankelecom I.Journal of Applied Polymer Science, 2016, 133(28), 43670.
|
[78] |
Madhavan K, Reddy B. Journal of Membrane Science, 2009, 342, 291.
|
[79] |
Isayeva I S, Kennedy J. Journal of Polymer Science Part A: Polymer Chemistry, 2004, 42, 4337.
|
[80] |
Rezakazemi M, Vatani A, Mohammadi T. Journal of Natural Gas Science and Engineering, 2016, 30, 10.
|
[81] |
Zhang Q G, Fan B C, Liu Q L, et al. Journal of Membrane Science, 2011, 366(1/2), 335.
|
[82] |
Mao H, Zhen H, Ahmad A, et al. Journal of Membrane Science, 2019, 582, 307.
|
[83] |
Liu G P, Hung W, Shen J, et al.Journal of Materials Chemistry A, 2015, 3, 4510.
|
[84] |
Zhan X, Lu J, Xu H L, et al. Applied Surface Science, 2019, 473, 785.
|
[85] |
Chen C Y, Pu N W, Liu Y M, et al. Composites Part B: Engineering, 2018, 135, 119.
|
|
|
|