尹振宇,张丽秀,李帅,张珂,李颂华,王俊海,王丽艳.银/聚多巴胺改性氧化石墨烯改善陶瓷摩擦副摩擦性能的研究[J].表面技术,2024,53(13):151-163.
YIN Zhenyu,ZHANG Lixiu,LI Shuai,ZHANG Ke,LI Songhua,WANG Junhai,WANG Liyan.Enhancing Tribological Performance of Ceramic Friction Pairs through Silver/Polydopamine Modified Graphene Oxide[J].Surface Technology,2024,53(13):151-163
银/聚多巴胺改性氧化石墨烯改善陶瓷摩擦副摩擦性能的研究
Enhancing Tribological Performance of Ceramic Friction Pairs through Silver/Polydopamine Modified Graphene Oxide
投稿时间:2023-06-10  修订日期:2024-01-03
DOI:10.16490/j.cnki.issn.1001-3660.2024.13.015
中文关键词:  陶瓷摩擦副  聚多巴胺  摩擦性能  纳米复合材料  分散稳定性  分子动力学模拟
英文关键词:ceramic friction pair  polydopamine  friction performance  nanocomposites  dispersion stability  molecular dynamics simulation
基金项目:国家自然科学基金(52175107);辽宁省应用基础研究计划(2022JH/101300234);辽宁省教育厅项目(LJKZ0599)
作者单位
尹振宇 沈阳建筑大学 机械工程学院,沈阳 110168 
张丽秀 沈阳建筑大学 机械工程学院,沈阳 110168 
李帅 沈阳建筑大学 机械工程学院,沈阳 110168 
张珂 沈阳工业大学,沈阳 110870 
李颂华 沈阳建筑大学 机械工程学院,沈阳 110168 
王俊海 沈阳建筑大学 机械工程学院,沈阳 110168 
王丽艳 沈阳建筑大学 机械工程学院,沈阳 110168 
AuthorInstitution
YIN Zhenyu School of Mechanical Engineering, Shenyang Jianzhu University, Shenyang 110168, China 
ZHANG Lixiu School of Mechanical Engineering, Shenyang Jianzhu University, Shenyang 110168, China 
LI Shuai School of Mechanical Engineering, Shenyang Jianzhu University, Shenyang 110168, China 
ZHANG Ke Shenyang University of Technology, Shenyang 110870, China 
LI Songhua School of Mechanical Engineering, Shenyang Jianzhu University, Shenyang 110168, China 
WANG Junhai School of Mechanical Engineering, Shenyang Jianzhu University, Shenyang 110168, China 
WANG Liyan School of Mechanical Engineering, Shenyang Jianzhu University, Shenyang 110168, China 
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中文摘要:
      目的 提高润滑油在陶瓷摩擦副中的润滑性能。方法 通过一步法制备银/聚多巴胺改性氧化石墨烯(Ag/PGO)纳米复合粒子,并作为润滑油的添加剂,通过摩擦试验研究含Ag/PGO润滑油的润滑性能。通过重力沉降法测试Ag/PGO在润滑油中的分散稳定性。观察磨痕微观形貌,通过分子动力学模拟方法,揭示含Ag/PGO润滑油的润滑机理。结果 聚多巴胺改性氧化石墨烯(PGO)在润滑油中可以稳定分散25 d,Ag/PGO在润滑油中可以稳定分散10 d。含Ag/PGO润滑油在Si3N4/Si3N4、Si3N4/GCr15两种摩擦副中均表现出良好的润滑性能,含Ag/PGO润滑油在Si3N4/Si3N4摩擦副中的最佳质量分数为0.05%,与基础油相比,其摩擦因数和磨痕宽度分别降低了16.8%、17.6%;在Si3N4/GCr15摩擦副中的最佳质量分数为0.2%,其摩擦因数和磨痕宽度分别降低了53.6%、22.7%。表明含添加剂润滑油的磨痕表面质量得到提升。结论 聚多巴胺经改性,可以有效提高氧化石墨烯在润滑油中的分散性能。与Si3N4壁面相比,含Ag/PGO的润滑油易于吸附在GCr15壁面。在剪切过程中,Ag/PGO与润滑油分子的相互作用减小了润滑油分子与摩擦壁面的相互作用能,减小了摩擦阻力,因此含Ag/PGO的润滑油在Si3N4/GCr15摩擦副中表现出更好的润滑性能。
英文摘要:
      According to the self-polymerization ability of dopamine in weak alkaline environment, silver/poly-dopamine modified graphene oxide (Ag/PGO) nanocomposites were prepared by one-step method as lubricating oil additives, and the dispersion stability of lubricating oil containing Ag/PGO and its lubrication properties in ceramic friction pairs were studied. Nano-composite particles doped with spherical metal Ag based on layered graphene structure had unique synergistic effect. On the one hand, spherical nanoparticles could enter graphene lamellae, which reduced the aggregation of graphene lamellae caused by van der Waals force attraction and improved the dispersion stability of Ag/PGO in lubricating oil. On the other hand, the layered graphene structure in Ag/PGO nanoparticles was more easily adsorbed on the friction surface, and the spherical nano-Ag particles entered the friction contact area under the friction to form support and ball bearing function, and the synergistic effect between the layered graphene structure and spherical nano-Ag improved the lubrication performance of lubricating oil. PGO could be stably dispersed in lubricating oil for 25 days and Ag/PGO could be stably dispersed in lubricating oil for 10 days. The best mass fraction of lubricating oil containing Ag/PGO in Si3N4/Si3N4 friction pair was 0.05%, and the friction coefficient and wear mark width were reduced by 16.8% and 17.6% respectively. The optimum mass fraction of Si3N4/GCr15 friction pair was 0.2%, and the friction coefficient and wear mark width were reduced by 53.6% and 22.7% respectively. The worn surface of lubricating oil containing additives was characterized by scanning electron microscope and ultra-depth-of-field microscope. The results showed that the wear surface of base oil was basically the same as the matrix material, indicating that no friction protective film was formed, and the friction coefficient and wear width were the largest. Compared with other additives, the surface of wear scar containing Ag/PGO additive had black deposition layer and was relatively smooth, and irregular pits were alleviated, which showed that the adsorption film formed by Ag/PGO deposition had anti-wear effect. Based on Materials studio (MS) 7.0 software, the molecular models of shear and adsorption of lubricating oil containing Ag/PGO in Si3N4/Si3N4 and Si3N4/GCr15 friction pairs were constructed respectively, and the shear and adsorption properties of lubricating oil containing additives were simulated respectively, and the lubrication mechanism of lubricating oil containing Ag/PGO was studied. The results showed that the interaction between Ag/PGO nanoparticles and C16H34 molecules could reduce the adsorption between oil film and friction wall, and reduce the shear deformation and friction resistance of oil film. Through the synergistic effect of Ag nanoparticles and PGO, more C16H34 molecules were adsorbed on the walls of Si3N4 and GCr15 with Ag/PGO nanoparticles, showing good adsorption performance. Compared with the wall of Si3N4, the lubricating oil containing additives was more easily adsorbed on the wall of GCr15. Therefore, the lubricating oil containing Ag/PGO shows better lubrication performance in Si3N4/GCr15 friction pair. The lubrication mechanism of lubricating oil containing Ag/PGO is obtained, that is, through the synergistic effect of lubricating oil, nano-Ag and Ag/PGO nano-particle adsorption film, the lubricating oil containing Ag/PGO has the best lubrication performance in two kinds of friction pairs.
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