周坤

个人信息Personal Information

讲师

硕士生导师

教师拼音名称:Zhou Kun

电子邮箱:

入职时间:2020-09-01

所在单位:高端装备机械传动全国重点实验室

学历:研究生(博士)毕业

性别:男

联系方式:zhoukun@cqu.edu.cn

学位:工学博士学位

在职信息:在职

毕业院校:西南交通大学

其他联系方式Other Contact Information

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个人简介Personal Profile

个人简介

周坤,重庆大学机械与运载工程学院讲师,硕士生导师,工学博士/博士后,荷兰代尔夫特理工大学访问学者。主要从事航空航天、轨道交通等领域的难加工材料磨削机理及低损伤加工工艺研究,具体包括:(1)磨削过程的材料去除、表面完整性、刀具磨损等;(2)难加工复合材料激光辅助磨削方法与机理;(3)加工表面的疲劳、摩擦磨损性能评价;所涉及的材料包括:复合材料、高温合金、钛合金、钢等。以第一/通讯作者在Journal of Materials Processing Technology、Applied Surface Science、Composite Structures、Tribology International、Wear、International Journal of Heat and Mass Transfer、Ceramics International、Journal of Manufacturing Processes、Case Studies in Thermal Engineering、Journal of Bionic Engineering等国内外高水平期刊上发表SCI论文20余篇(ESI热点、高倍引论文2篇),出版学术专著1部,主持国家自然科学基金青年科学基金、重庆市自然科学基金面上项目、中国博士后科学基金等项目共5项,研究成果入选“2022年度重庆市机械行业十大科技进展”,担任国家自然科学基金通讯评审专家、十余种国际期刊审稿人。

学术主页:https://www.researchgate.net/profile/Kun-Zhou-9


每年招收硕士研究生数名,欢迎对研究方向感兴趣的同学报考(可提前邮件交流)。


工作经历

2023.09~至今,重庆大学,机械与运载工程学院,讲师

2020.09~2023.08,重庆大学,机械与运载工程学院,助理研究员/博士后


教育背景

2019.09-2019.12,代尔夫特理工大学,访问学者

2015.09-2020.07,西南交通大学,机械设计及理论,工学博士(硕博连读)


主持科研项目

(1) 国家自然科学基金青年基金项目,2023.01-2025.12,No. 52205444,主持

(2) 重庆市自然科学基金面上项目,2022.08~2025.07,No. CSTB2022NSCQ-MSX1128,主持

(3) 中国博士后科学基金面上项目,2021.11-2023.04,No. 2021M700586,主持

(4) 重庆市博士后科研项目特别资助项目一等资助,2021.01-2022.12,No. XmT2020028,主持

(5) 重庆市教委“成渝地区双城经济圈建设”科技创新项目重点项目,2021.01-2023.12, No. KJCXZD2020012,主持


代表性学术论文(第一/通讯作者)

[1]K. Zhou, J.Y. Xu, G.J. Xiao*, Y. Huang, A novel low-damage and low-abrasive wear processing method of Cf/SiC ceramic matrix composites: Laser-induced ablation-assisted grinding. Journal of Materials Processing Technology, 2022, 302: 117503. (中科院一区,Top,JCR Q2)(ESI热点、高被引论文)

[2]K. Zhou, G.J. Xiao*, J.Y. Xu, Y. Huang, Material removal behavior of Cf/SiC ceramic matrix composites as a function of abrasive wear during diamond abrasive belt grinding. Wear, 2021, 486-487: 204101.(中科院一区,Top,JCR Q1

[3]K. Zhou, H.H. Ding, M. Steenbergen, W.J. Wang*, J. Guo, Q.Y. Liu. Temperature field and material response as a function of rail grinding parameters. International Journal of Heat and Mass Transfer, 2021, 175: 121366.(中科院二区,Top,JCR Q1

[4]K. Zhou, H.H. Ding, W.J. Wang*, R.X. Wang, J. Guo, Q.Y. Liu. Influence of grinding pressure on removal behaviours of rail material. Tribology International, 2019, 134: 417-426.(中科院一区,Top,JCR Q1

[5]K. Zhou, H.H. Ding, S.Y. Zhang, J. Guo, Q.Y. Liu, W.J. Wang*. Modelling and simulation of the grinding force in rail grinding that considers the swing angle of the grinding stone. Tribology International, 2019, 137: 274-288.(中科院一区,Top,JCR Q1

[6]K. Zhou, H.H. Ding, R.X. Wang, J.Y. Yang, J. Guo, Q.Y. Liu, W.J. Wang*. Experimental investigation on material removal mechanism during rail grinding at different forward speeds. Tribology International, 2020, 143: 106040.(中科院一区,Top,JCR Q1

[7]K. Zhou, J.F. Liu, G.J. Xiao*, Y. Huang, K.K. Song, J.Y. Xu, B.Q. Chen. Probing residual stress evolution of titanium alloy due to belt grinding based on molecular dynamics method. Journal of Manufacturing Processes, 2021, 66: 446-459. (中科院二区,JCR Q2

[8]K. Zhou, H.H. Ding, W.J. Wang*, J. Guo, Q.Y. Liu, Surface integrity during rail grinding under wet conditions: Full-scale experiment and multi-grain grinding simulation. Tribology International, 2022, 165: 107327.(中科院一区,Top,JCR Q1

[9]K. Zhou, J. Xu, G. Xiao*, Y. Huang, Enhancing ductile removal of Cf/SiC composites during abrasive belt grinding using low-hardness rubber contact wheels. Ceramics International, 2022, 48 (18): 26042-26054.(中科院区,Top,JCR Q1

[10]G. Xiao, Y. He, K. Zhou*, S. Zhu, S. Song, K. Song, A study on aerodynamic performance of different bionic structured surfaces via belt grinding. Journal of Bionic Engineering, 2021,18(5): 1179-1191.(中科院二区,JCR Q2(指导博士生发表)

[11]K. Zhou, G. Xiao*, J. Xu, Y. Huang, Wear evolution of electroplated diamond abrasive belt and corresponding surface integrity of Inconel 718 during grinding. Tribology International, 2023, 177:107972.(中科院一区,Top,JCR Q1(ESI高被引论文)

[12]Y. Liu, J. Xu, K. Zhou*, S. Li, Y. Huang, G. Xiao**, Numerical and experimental investigation on temperature field during belt grinding considering elastic contact. Case Studies in Thermal Engineering, 2022, 40: 102555.(中科院二区,JCR Q1)(指导硕士生发表)

[13]G. Xiao, Y. Zhang, B. Zhu, H. Gao, Y. Huang, K. Zhou*, Wear behavior of alumina abrasive belt in creep feed grinding and its effect on surface integrity of titanium alloy. Wear, 2023, 514-515: 204581.(中科院区,Top,JCR Q1)(指导博士生发表)

[14]Y. Liu, S. Song, G. Xiao, Y. Huang, K. Zhou*A high-precision prediction model for surface topography of abrasive belt grinding considering elastic contact, The International Journal of Advanced Manufacturing Technology, 2022. (中科院三区,JCR Q2)(指导硕士生发表)

[15]Y. Liu, J. Xu, G. Xiao*, K. Zhou**, G. Liu, Thermo-mechanical coupling during belt grinding and corresponding surface integrity of titanium alloy. The International Journal of Advanced Manufacturing Technology, 2022, 121: 6599-6609.(中科院三区,JCR Q2)(指导硕士生发表)

[16]G. Xiao, Z. Yang, K. Zhou*, X. Li, Subsurface damage inhibiting and synchronous removal behavior of Cf/SiC composites with laser-induced controllable ablation during abrasive belt grinding. Applied Surface Science, 2023, 639: 158283.(中科院一区,Top,JCR Q1)(指导硕士生发表)

[17]K. Zhou, G. Xiao*, Y. Huang, Fabricating physicochemical microstructures with super hydrophilicity on Cf/SiC composites surface via picosecond-laser induced ablation. Ceramics International, 2023, 49 (21): 34291-34302.(中科院一区,Top,JCR Q1)

[18]G. Xiao, X. Li, K. Zhou*, Z. Yang, Comprehensive investigation into grinding characteristics and damage behavior of Cf/SiC composite modified by picosecond-laser ablating. Composite Structures, 2023, 325: 117600.(中科院一区,Top,JCR Q1)(指导硕士生发表)

[19] K. Zhou, G. Xiao, Y. Huang, Understanding machinability improvements and removal mechanism of ceramic matrix composites during laser-ablating assisted grinding. Wear, 2024, 538-539: 205199.(中科院一区,Top,JCR Q1)

[19]周坤,王文健*,刘启跃,郭俊.钢轨打磨机理研究进展及展望.中国机械工程,2019,30(3):284-294.







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