1 1.国家自然科学基金面上项目,超低磨损固体自润滑界面开放系统热力学研究,1/1/2019-12/31/2022, 60万,在研,主持 2.国家自然科学青年科学基金,基于转移膜二维连续性和相对吸附强度的新型聚合物减磨模型研究,1/1/2016-12/31/2018,23.05万,已结题,主持 3.安徽省自然科学基金, 纳米复合材料填料分散与增强机理的量化模型研究,7/1/2016-6/30/2018,8万,已结题,项目主持 4.合肥工业大学优秀青年人才培育计划A项目,新型空间固体自润滑界面超低磨损理论与构建方法, 40万,在研,主持 5.合肥工业大学学术新人提升计划B计划,自制超高精度纳米摩擦学实验平台, 20万,已结题,主持 近期论文: [1]Zhang K, Liu K, Gao T, Qiao Y, Zhang Y, Liu X, Wang W, Ye J.* The Unrecognized Importance of Roughness Directionality to Polymer Wear[J]. Wear, 2021, 486–487: 204084. [2]Ye J, Xuan J, Qiao Y, Zhang Y, Zhang H, Xu J, Liu X, Liu K. A Simple Analysis of Texture-Induced Friction Reduction Based on Surface Roughness Ratio[J]. Tribology Letters, 2021, 69(2): 67. [3]Sun W, Liu X, Song Q, Liu K, Wang W, Lu Y, Ye J*. American Chemical Society, 2021. Mechanochemical Effect of Filler Surface Functionality on Fluoropolymer Tribology[J]. Macromolecules, 2021. [4]Sun W, Liu X, Liu K, Xu J, Lu Y, Ye J*. Mechanochemical functionality of graphene additives in ultralow wear polytetrafluoroethylene composites[J]. Carbon, 2021, 184: 312–321. [5]Ye J, Zhang Y, Zhang K, Wang W, Liu X, Liu K. Hybrid Wear-Reducing Micro-pits Counterface Texture Against Polymeric Solid Lubricants[J]. Tribology Letters, 2020, 68(1): 33. [6]Ye J, Wei J, Zeng J, Alam K I, Sun W, Liu X, Liu K, Burris D L. American Chemical Society, 2020. Interfacial Gradient and Its Role in Ultralow Wear Sliding[J]. The Journal of Physical Chemistry C, 2020, 124(11): 6188–6196. [7]Sun W, Liu X, Liu K, Wang W, Ye J*. Ultralow wear PTFE composites filled with beryllia and germania particles[J]. Wear, 2020, 450–451: 203270. [8]Sun W, Liu X, Liu K, Xu J, Wang W, Ye J*. Paradoxical Filler Size Effect on Composite Wear: Filler–Matrix Interaction and Its Tribochemical Consequences[J]. Tribology Letters, 2020, 68(4): 131. [9]Ye J, Zhang K, Gao T, Zhang Y, Liu X, Liu K. Self-competing and Coupled Effect of Laser-Engraved Counterface Groove Depth and Density on Wear of Alumina PTFE[J]. Tribology Letters, 2019, 67(2).
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