Wen Y Q, Zhou W*, Tang J Y. Composite effects of residual stress and hardness gradient on contact fatigue performance of rough tooth surfaces and optimization design of detailed characteristic parameters. Engineering Failure Analysis, 2024, 162: 108424.
周炜*, 赵岱岩, 唐进元. 一种基于峰谷数据映射的粗糙度轮廓重构方法. 机械工程学报, 2023, 59(17): 268-278.
Wen Y Q, Tang J Y*, Zhou W*, Li L, Zhu C C. New analytical model of elastic-plastic contact for three-dimensional rough surfaces considering interaction of asperities. Friction, 2022, 10(2): 217-231.
Zhou W*, Zhao D Y, Tang J Y, Yi J. A comparative study on asperity peak modeling methods. Chinese Journal of Mechanical Engineering, 2021, 34: 61.
Yang D, Tang J Y, Zhou W*, Wen Y Q. Correlation between surface roughness parameters and contact stress of gear. ARCHIVE Proceedings of the Institution of Mechanical Engineers Part J Journal of Engineering Tribology, 2021, 235(3): 551-563.
Zhou W, Tang J Y*, He Y F. Modeling of rough surfaces with given roughness parameters. Journal of Central South University, 2017, 24: 127-136.
Zhou W, Tang J Y*, Huang Z H. A new method for rough surface profile simulation based on peak-valley mapping. Tribology Transactions, 2015, 58(6): 971-979.
Zhou W, Tang J Y*, He Y F. Formulae of roughness peak distribution parameters with standard deviation and correlation length. ARCHIVE Proceedings of the Institution of Mechanical Engineers Part J Journal of Engineering Tribology, 2015, 229(12): 1395-1408.
Zhou W, Tang J Y*, He Y F. Associated rules between microstructure characterization parameters and contact characteristic parameters of two cylinders. Journal of Central South University, 2015, 22(11): 4228−4234.
周炜, 李鑫, 肖罡*, 杨国庆, 杨钦文, 唐进元. 考虑接触压力二阶导数连续性的粗糙表面弹塑性接触模. 塑性工程学报, 2024.
周炜, 何鑫, 肖罡*, 杨钦文, 唐进元. 粗糙齿面接触疲劳性能的晶体塑性有限元分析. 塑性工程学报, 2024.
周炜, 蔡一丁, 肖罡*, 杨钦文, 唐进元. 考虑材料塑性流动的粗糙表面弹塑性接触建模. 塑性工程学报, 2024, 31(4): 178-183.
周炜*, 胡祺, 唐进元, 温昱钦. 微凸体分布计算方法对曲面接触预测的影响. 机械科学与技术, 2023, 42(8): 1192-1199.
周炜*, 罗柏瑶, 唐进元. 粗糙曲面无摩擦接触下的亚表面裂纹扩展分散性研究. 机械科学与技术, 2022, 41(11): 1671-1678.
周炜, 肖罡, 唐进元*. 一种表面微观形貌的主动重构方法. 机械科学与技术, 2021, 40(8): 1164-1170.
周炜, 唐进元*, 温昱钦. 粗糙齿面啮合弹塑性接触分析. 机械科学与技术, 2020, 39(2): 187-193.
唐进元*, 周炜. 速度相关摩擦力条件下曲面接触问题有限元分析. 重庆大学学报, 2012, 35(6): 43-47+52.
唐进元*, 周炜, 陈思雨. 齿轮传动啮合接触冲击分析. 机械工程学报, 2011, 47(7): 22-30.
周炜, 唐进元*. Stribeck摩擦条件下齿轮二维冲击接触有限元求解. 中国机械工程, 2011, 22(15): 1858-1861+1879.
唐进元*, 周炜, 陈思雨. 基于Stribeck摩擦模型的干摩擦滑块接触问题有限元分析. 中国机械工程, 2010(10): 1218-1221.
Chen J L, Tang J Y, Shao W, Li Xin, Zhao J Y, Zhou W, Zhang D. A new numerical simulation method for 3D rough surface topography of shot peening parts with specified 3D roughness spatial parameters. Tribology Letters, 2024, 72: 123.
Yang D, Tang J Y, Xia F J, Zhou W, Rough surface characterization parameter set and redundant parameter set for surface modeling and performance research. Materials, 2022, 15(17): 5971.
You S Y, Tang J Y*, Zhou W, Zhou W H, Zhao J Y, Chen H F. Research on calculation of contact fatigue life of rough tooth. Engineering Failure Analysis, 2022, 140: 106459.
Yang D, Tang J Y*, Xia F J, Zhou W. Surface roughness characterization and inversion of ultrasonic grinding parameters based on support vector machine. Journal of Tribology, 2022, 144(9): 094501.
Yang D, Tang J Y*, Zhou W, Wen Y Q. Study on roughness parameters screening and characterizing surface contact performance based on sensitivity analysis. Journal of Tribology, 2022, 144: 041502.
Yang D, Wang Q B, Tang J Y*, Xia F J, Zhou W, Wen Y Q. Correlation analysis of roughness surface height distribution parameters and maximum mises stress. Surface Topography-Metrology and Properties, 2022, 10: 015046.
Yang D, Tang J Y*, Zhou W, Wen Y Q. Comprehensive study of relationships between surface morphology parameters and contact stress. Journal of Mechanical Science and Technology, 2021, 35(11): 4975-4985.
Wen Y Q, Tang J Y*, Zhou W, Li L. A reconstruction and contact analysis method of 3-D rough surface based on ellipsoidal asperity. Journal of Tribology, 2019, 142(4): 1-37.
Wen Y Q, Tang J Y*, Zhou W. Influence of distribution parameters of rough surface asperities on the contact fatigue life of gear. ARCHIVE Proceedings of the Institution of Mechanical Engineers Part J Journal of Engineering Tribology, 2019, 234(6): 821-832.
Wen Y Q*, Tang J Y, Zhou W, Zhu C C. Study on contact performance of ultrasonic-assisted grinding surface. Ultrasonics, 2019, 91: 193-200.
Yi J*, Zhou W, Deng Z H. Experimental Study and Numerical Simulation of the Intermittent Feed High-Speed Grinding of TC4 Titanium Alloy. Metals, 2019, 9(7): 802.
Wen Y Q*, Tang J Y, Zhou W, Zhu C C. An improved simplified model of rough surface profile. Tribology International, 2018, 125: 75-84.
Wen Y Q*, Tang J Y, Zhou W, Zhu C C. A new elliptical microcontact model considering elastoplastic deformation[J]. ARCHIVE Proceedings of the Institution of Mechanical Engineers Part J Journal of Engineering Tribology, 2018, 232(11): 1352-1364.
Li G W, Tang J Y*, Zhou W, Li L. Fatigue life prediction of workpiece with 3D rough surface topography based on surface reconstruction technology. Journal of Central South University, 25(9): 2069−2075.
He Y F, Tang J Y*, Zhou W. Research on the obtainment of topography parameters by rough surface simulation with FFT. ASME journal of tribology. 2015, 137: 031401.
Liao D R, Tang J Y*, Zhou W, Based on the NCGM method of the Gaussian 3-d Rough Surface Numerical Simulation, icmtma. 2013 Fifth International Conference on Measuring Technology and Mechatronics Automation. 2013: 323-326.
何玉辉, 胡航, 唐进元*, 周炜. 齿根三维粗糙表面的应力集中系数计算研究. 机械工程学报, 2021, 57(21): 182-188.
刘尧喜, 唐进元*, 周炜, 何玉辉, 余洋. 扩展有限元刚度矩阵的CSR存储实现. 机械强度, 2019, 41(6): 1384-1390.
余洋, 唐进元*, 刘尧喜, 周炜. 基于XFEM的高速工况下齿根裂纹扩展规律研究. 机械传动, 2018, 42(12): 1-6.
贺迪, 唐进元*, 李国文, 周炜. 考虑粗糙度参数 Ra 影响的齿根弯曲疲劳寿命计算. 机械传动, 2018, 42(8): 6-10+38.
许德涛, 唐进元*, 周炜, 许永利. 基于XFEM的齿轮腹板结构与齿根裂纹扩展关联规律研究. 机械传动, 2016, 40(12): 153-158.
许德涛, 唐进元*, 周炜. 基于扩展有限元法的齿根裂纹扩展规律研究. 中南大学学报, 2016, 47(8): 2668-2675.
刘新儒, 刘圣军*, 唐进元, 周炜. 三阶段遗传LM算法的粗糙度参数计算公式构造. 计算机辅助设计与图形学学报, 2015, 27(11): 2192-2200.
唐进元*, 廖东日, 周炜. 基于NCGM的粗糙表面数值模拟与实验对比. 中国机械工程, 2014, 25(14): 1878-1882.
唐进元*, 陈维涛, 陈思雨, 周炜. 一种新的小波阈值函数及其在振动信号去噪分析中的应用. 振动与冲击, 2009, 28(7): 118-121+217.
