粉煤灰微珠填充环氧树脂复合涂层耐磨性能的研究<sup>*</sup>

doi:10.11896/j.issn.1005-023X.2017.04.009

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Abstract The epoxy resin composite coating filled with fly ash cenospheres was prepared. The wear resistance of the compo-site coating was measured using JM-V abrasion tester. And the effect of cenospheres content, cenospheres particle size, test load and speed on the wear resistance of composite coating was discussed. The results show that with the increase of cenospheres content, the wear resistance of the composites coating increases first and then decreases and it reaches the maximum when the content of cenos-pheres is 15wt%. With the increase of particle size of cenospheres, the cenospheres are more easily broken in the wear process, which leads to the wear resistance decrease of the composite coating. Compared with the wear test results of the composite coating under different load and speed, it is found that the wear resistance of the composite coating decreases with the increase of the load. Increase the test speed, the wear mass loss of the composite coating will become larger.

Key words： fly ash cenospheres epoxy resin composites coating wear resistance

Published: 25 February 2017 Online: 2018-05-02

CLC number:

TB332

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https://www.mater-rep.com/EN/10.11896/j.issn.1005-023X.2017.04.009 OR https://www.mater-rep.com/EN/Y2017/V31/I4/36

1 Sun T, Fan H Y, Wang Z, et al. Modified nano Fe₂O₃-epoxy composite with enhanced mechanical properties[J]. Mater Des,2015,87:10.
2 Zhou H L Z, Liu H Y, Zhou H M, et al. On adhesive properties of nano-silica/epoxy bonded single-lap joints[J]. Mater Des,2016,95:212.
3 Conradi M, Zorko M, Kocijan A, et al. Mechanical properties of epoxy composites reinforced with a low volume fraction of nanosilica fillers[J]. Mater Chem Phys,2013,137:910.
4 Ji Q L, Zhang M Q, Rong M Z, et al. Tribological properties of nanosized silicon carbide filled epoxy composites[J]. Acta Mater Compos Sin,2004,21(6):14(in Chinese).
纪秋龙, 章明秋, 容敏智, 等. 纳米碳化硅填充环氧树脂复合材料的摩擦磨损特性[J]. 复合材料学报,2004,21(6):14.
5 Li J N, Yu K J, Qian K, et al. The reinforcing and toughening effect of grapheme/SiO₂ hybrid material on epoxy-based composites[J]. Mater Rev: Res,2014,28(10):51(in Chinese).
李佳铌, 俞科静, 钱坤, 等. 石墨烯/SiO₂杂化材料增强增韧环氧树脂基复合材料[J]. 材料导报:研究篇,2014,28(10):51.
6 Palraj S, Selvaraj M, Maruthan K, et al. Corrosion and wear resis-tance behavior of nano-silica epoxy composite coatings[J]. Prog Org Coat,2015,81:132.
7 Kang Y K, Chen X H, Song S Y, et al. Friction and wear behavior of nanosilica-filled epoxy resin composite coatings[J]. Appl Surf Sci,2012,258:6384.
8 Luo Y, Dong X M, Yu X Y, et al. Tribological performance of modified nano-Si₃N₄/EP composites[J]. Polym Mater Sci Eng,2010,26(6):71(in Chinese).
罗颖, 董先明, 禹筱元, 等. 改性纳米 Si₃N₄/环氧树脂复合材料的摩擦磨损特性[J]. 高分子材料科学与工程,2010,26(6):71.
9 Guo Q B, Tan Y H, Li C J. Friction and wear properties of SCF/EP composites filled with nano-SiO₂ [J]. Polym Mater Sci Eng,2011,27(7):34(in Chinese).
郭清兵, 谭赟华, 李翠金. 纳米SiO₂填充短炭纤维/环氧复合材料的摩擦磨损性能[J].高分子材料科学与工程,2011,27(7):34.
10 Kolay P K, Bhusal S. Recovery of hollow spherical particles with two different densities from coal fly ash and their characterization[J]. Fuel,2014,117:118.
11 Acar I, Atalay M U. Recovery potentials of cenospheres from bituminous coal fly ashes[J]. Fuel,2016,180:97.
12 Zyrkowski M, Neto R C, Santos L F, et al. Characterization of fly-ash cenospheres from coal-fired power plant unit[J]. Fuel,2016,174:49.
13 Wang C F, Liu J C, Du H Y, et al. Effect of fly ash cenospheres on the microstructure and properties of silica-based composites[J]. Ceram Int,2012,38:4395.
14 Chen P, Ma F, Mei H F, et al. Erosive wear characteristics of high-alumina cenospheres filled epoxy resin composites [J]. J University of Science and Technology Beijing,2014,36(2):218(in Chinese).
陈平, 马峰, 梅华锋, 等. 高铝微珠/环氧树脂复合材料冲蚀磨损特性[J]. 北京科技大学学报,2014,36(2):218.
15 Chen P, Li M M, Ma F, et al. Abrasion performance of epoxy resin composite filled with cenopheres [J]. J Funct Mater,2015,46(22):22062(in Chinese).
陈平, 李苗苗, 马峰, 等. 微珠填充环氧树脂复合材料的磨耗性能[J]. 功能材料,2015,46(22):22062.
16 Manakari V, Parande G, Doddamani M, et al. Dry sliding wear of epoxy/cenosphere syntactic foams [J]. Tribology Int,2015,92:425.
17 Das A, Satapathy B K. Structural, thermal, mechanical and dyna-mic mechanical properties of cenosphere filled polypropylene compo-sites [J]. Mater Des,2011,32:1477.
18 Srivastava V K, Pawar A G. Solid particle erosion of glass fiber reinforced flyash filled epoxy resin composites [J]. Compos Sci Technol,2006,66:3021.
19 Gu J, Wu G H, Zhang Q. Effect of porosity on the damping properties of modified epoxy composites filled with fly ash [J]. Scripta Mater,2007,57:529.
20 Ye S J, Fan Q, Deng L Y, et al. The mechanical and tribological properties of copper filled PTFE composites[J]. Lubrication Eng,2010,35(9):60(in Chinese).
叶索娟, 范清, 邓联勇, 等. 铜粉对 PTFE复合材料力学及摩擦学性能的影响[J]. 润滑与密封,2010,35(9):60.
21 Xie T, Jiang K, Ding Y. Numerical simulation of influence of filler size on tribological properties of Cu/PTFE composites[J]. Tribology,2016,36(1):35(in Chinese).
解挺, 江凯,丁亚. 填料粒径对Cu/PTFE复合材料摩擦学性能影响的数值模拟[J]. 摩擦学学报,2016,36(1):35.
22 Ding J, Ma J Q, Xue Q J. Dry-sliding tribological properties of isocyanate-terminated polybutadine rubber-epoxy resin filled with nano Al₂O₃ coating[J]. Tribology,2006,26(4):314(in Chinese).
丁军, 马吉强, 薛群基. 纳米Al₂O₃填充端异氰酸酯基聚丁二烯橡胶-环氧树脂复合涂层的干滑动摩擦磨损性能研究[J]. 摩擦学学报,2006,26(4):314.