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原位反应法制备CuO/PPS复合涂层及其表征
龚建彬, 龙春光，2, 粟洋, 曹太山, 周扬^1,2
1. 长沙理工大学 a. 物理与电子科学学院 b. 汽车与机械工程学院, 长沙 410004;2. 湖南大学汽车车身先进设计制造国家重点实验室，长沙 410012

摘要:

利用CuSO₄与NaOH在PPS涂料中原位反应的方法掺杂CuO、通过浸涂制备了CuO/PPS复合涂层，利用XRD分析了原位反应的产物，热重分析仪测试了涂层的热性能，销盘式磨损实验机测试了涂层的摩擦学性能，采用SEM观察分析了磨损表面，并在此基础上探讨了磨损机理。结果表明：CuO/PPS复合涂层的表面平整光洁。原位反应的产物为CuO，复合涂层的热稳定性较纯PPS树脂有所提高，热分解温度提高到536 ℃；CuO的加入使PPS复合涂层摩擦学性能得到明显改善，添加1.5% CuO时，摩擦因数从0.44减小到0.26，相应的磨耗降低为原来的1/3。同时发现在相同实验条件下涂层的磨损机理随CuO添加量的增加，从粘附磨损依次向磨粒磨损和疲劳磨损过渡。

关键词: PPS CuO 原位反应热稳定性摩擦磨损

DOI：

分类号:

基金项目:湖南大学汽车车身先进设计制造国家重点实验室开放基金(31015010)；湖南省科技成果转化项目（2011CK3070）

Preparation and Characteration of CuO/PPS Composite Coating by Insitu Reaction

GONG Jian-bin, LONG Chun-guang,2, SU Yang, CAO Tai-shan, ZHOU Yang^1,2

1a. School of Physics and Electronic Science, 1b. Institute of Automobile and Mechanical Engineering, Changsha University of Science and Technology, Changsha, 410004;2. State Key Laboratory of Advanced Design and Manufacturing for Vehicle Body, Hunan University, Changsha 410012

Abstract:

The copper oxide/polyphenylene sulfide composite coatings were prepared by insitu reactive method, with copper oxide mixed in polyphenylene sulfide coatings. The insitu reaction product was analyzed by XRD. The thermal property of the composites coating was tested by thermogravimetric and differential thermal analyzer. The tribological behaviour was investigated on pinondisc sliding friction and wear tester. The worn surfaces of the composite coatings were observed and analyzed by SEM, and the worn mechanism was then discussed. The results show that the surface of CuO/PPS composite coating is flat and glossy. The thermostability of the composite coatings is improved, and the decomposition temperature is 536 ℃, which is higher than that of pure polyphenylene sulfide resin. The tribological properties are obviously improved with adding copper oxide. The friction coefficient is reduced from 0.44 to 0.26, and the wear loss decreases by 66% with 1.5% CuO in PPS coatings. The mechanism of coatings is closely related to the contents of copper oxide under the same experimental conditions.

Key words: polyphenylene sulfide (PPS) CuO insitu reaction thermostability friction wear