POLYMERS AND POLYMER MATRIX COMPOSITES |
|
|
|
|
|
Tribology of Glass Fiber Reinforced Borate Modified Phenolic Resin Composite |
WANG Yanan, CAO Fengxiang, WANG Yongfeng, CAO Jing, LI Zhao, WU Kunyao
|
School of Materials Engineering,Xi'an Aeronautical University, Xi'an 710077,China |
|
|
Abstract This article is prepared for bring the boric acid (BA) and phenylboronic acid (PBA) into phenolic resin (NR), which preparing borate modi-fied phenolic resin to study its curing process, and also improving the use of borate modified phenolic resin as the matrix and glass fiber as the reinforcement. The effect of different boron modification on the friction and wear properties of phenolic resin was prepared. The results showed that both BA and PBA modification can introduce a borate structure into the cured resin, thereby improving the thermal stability of the PR significantly. In addition, the introduction of boric acid esters reduced the friction of PR. Among them, when the PBA content is 30 phr, the friction coefficient is reduced to 0.16 effectively. The SEM showed that the borate can improve the interfacial adhesion performance of the phenolic resin, which improving the friction performance of the modified phenolic resin as efficiently as well.
|
Published: 30 September 2021
|
|
Fund:This work was financially supported by the Xi'an Aeronautical University Fund (2019KY1222), Xi'an Science and Technology Project (GXYD9.2). |
About author:: Yanan Wang achieved a master's degree from Xi'an Jiaotong University in June 2018. She is working at Xi'an Aeronautical University since graduation. Her research interests focus on the modification of phenolic resin and the relationship between structure and performance. She has also participated a variety of scientific and technological researches organized by the Institute of Xi'an Science and Technology Project and horizontal projects. Her scientific achievements are mainly published in domestic and foreign journals, such as Reactive and Functional Po-lymers, Polymer Degradation and Stability and Organic Letters, etc. Besides, she has applied for two patents recently. |
|
|
1 Baekeland L H. Industrial & Engineering Chemistry Research, 1909, 1, 149. 2 Huang F.Phenolic resin and its application, Chemical Industry Press, China,2011 (in Chinese). 黄发荣.酚醛树脂及其应用, 化学工业出版社, 2011. 3 Charles U. Pittman J,Gui Z L.Journal of Inorganic and Organometallic Polymers and Materials, 2006, 16(1), 43. 4 Parameswaran P S, Abraham B T, Thachil E T.Progress in Rubber Plastics Recycling Technology, 2010, 26(1), 31. 5 Mirzapour A, Asadollahi M H, Baghshaei S, et al.Composites Part A: Applied Science and Manufacturing, 2014, 63, 159. 6 Wang D, Gao J, Xu W F, et al.Advanced Materials Research, 2011, 327, 115. 7 Akbar N Q, Hossein R M, Mehdi S K, et al. Journal of Thermal Analysis and Calorimetry, 2017, 128(2), 1027. 8 Qiang M, Zhang S, Lin H, et al.Refractories, 2005, 39(2), 119. 9 Feng L B, Li H, Hao X Z, et al. Journal of Materials Engineering, 2013(9),75(in Chinese). 冯利邦, 李晖, 郝相忠, 等.材料工程, 2013(9), 75. 10 Abdalla M O, Ludwick A,Mitchell T. Polymer, 2003, 44(24), 7353. 11 Zhang W F, Liu C L, Ying Y G, et al.Materials Chemistry and Physics, 2010, 121(1), 89. 12 Chen Z, Chen Y, Li W, et al.Polymer Materials Science & Engineering, 2013, 29(5), 96. 13 Ding J, Huang Z, Qin Y, et al. In:2015 International Conference on Materials and Chemical Engineering. Suzhou,China, 2015, pp.1047. 14 Qian C X, Zhao H K, Xiong Y M, et al. Journal of Functional Materials. 2006, 37(7),1114(in Chinese). 钱春香, 赵洪凯, 熊佑明, 等.功能材料, 2006, 37(7), 1114. 15 Wang S, Jing X, Wang Y, et al. Polymer Degradation and Stability, 2014, 99, 1. 16 Wang S, Wang Y, Bian C, et al. Applied Surface Science, 2015, 331, 519. 17 Wang S J, Wang Y, Wang Y N, et al. In: Conference Record of the 30 ND CCSS Congress. Hangzhou, China,2016, pp. 65 (in Chinese). 王淑娟, 王勇, 王亚楠, 等. 30届中国化学会学术年会. 杭州, 2016, pp. 65. 18 Yu J, Zhao W S, Li L L.Chemical Research, 2017, 28(5), 560(in Chinese). 于静, 赵文善, 李路路.化学研究, 2017, 28(5), 560. 19 Zhang L, Wang Y G, Li J S, et al. Lubrication Engineering, 2010, 35(8),67(in Chinese). 张立, 王永刚, 李久盛, 等.润滑与密封, 2010, 35(8), 67. 20 Sun L G, Wang Y G, Zhang L, et al. Lubrication Engineering, 2010(1),52(in Chinese). 孙令国, 王永刚, 张立, 等.润滑与密封, 2010(1), 52. 21 Gao J, Su X, Xia L. International Journal of Polymeric Materials & Polymeric Biomaterials, 2005, 54(10), 949. 22 Yu H J, Ma J, Gao D P, et al. Chinese Journal of Energetic Materials, 2014, 22(1), 1. 23 Qiu J, Wang G J, Feng Y B. Journal of Tongji University (Natural Science), 2007, 35(3), 381 (in Chinese). 邱军, 王国建, 冯悦兵.同济大学学报(自然科学版), 2007, 35(3), 381. 24 Bijwe J, Nidhi, Majumdar N, et al. Wear, 2005, 259(7), 1068. 25 Jiang H, Wu S, Yuan Z, et al. Polymer Degradation & Stability, 2012, 97 (8), 1527. 26 Gao J, Liu Y, Wang F. European Polymer Journal, 2001, 37(1), 207. 27 Gao J, Su X, Xia L. International Journal of Polymeric Materials, 2005, 54(10), 949. 28 Kim G M, Young J O, Chang K J. Journal of Applied Physics, 2013, 114(22), 1553. |
|
|
|