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,项目主持 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 5.合肥工业大学学术新人提升计划A计划,摩擦下表面裂纹生长的原位实验与模型研究, 5万,已结题,主持 6.合肥工业大学青年教师创新项目,基于摩擦界面原位观测的新型摩擦实验系统的开发,6/1/2015-12/31/2016,3万,已结题,项目主持 近期论文:
1. Ye J, Zhang H, Liu X, Liu K. Low Wear Steel Counterface Texture Design: A Case Study Using Micro-pits Texture and Alumina–PTFE Nanocomposite[J]. Tribology Letters, 2017, 65(4): 165. 2. Ye J, Sun W, Zhang Y, Liu X, Liu K. Measuring Evolution of Transfer Film–Substrate Interface Using Low Wear Alumina PTFE[J]. Tribology Letters, 2018, 66(3). 3. Ye J, Tao B, Sun W, Haidar D R, Alam K I, Liu K, Burris D L. The Competing Effects of Counterface Peaks and Valleys on the Wear and Transfer of Ultra-Low Wear Alumina–PTFE[J]. Tribology Letters, 2018, 66(1): 12. 4. Ye J, Burris DL, Xie T. A Review of Transfer Films and Their Role in Ultra-Low-Wear Sliding of Polymers. Lubricants. 2016 Feb 26;4(1):4. Invited Review 5. 邀请报告:PTFE减磨复合材料转移膜的性能、表征和控制, 叶家鑫,D.L.Burris,解挺, 全国摩擦学大会,四川,成都,2015 6. J. Ye, A.C. Moore, D. L. Burris, Transfer Film Tenacity: A Case Study Using Ultra-Low-Wear Alumina–PTFE, Tribology Letter (2015),59(3): 1-11 7. Khare HS, Moore AC, Haidar DR, Gong L, Ye J, Rabolt JF, Interrelated Effects of Temperature and Environment on Wear and Tribochemistry of an Ultralow Wear PTFE Composite., J Phys Chem C.(2015) 119(29):16518–27. 8. J. Ye, H. S. Khare, D. L. Burris, A New Method of Quantifying Transfer Film Quality for Polymeric Solid Lubricants, Wear 316 (2014): 133-143 9. J. Ye, H. S. Khare, D. L. Burris, Transfer Film Evolution and Its Role in Promoting Ultra-Low Wear of a PTFE Nanocomposite, J. Ye, H. S. Khare, D. L. Burris, Wear 297 (2013): 1095-1102
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