Wenxi Wang

Click:

The Founding Time:..

The Last Update Time:..

· Scan attention

·Personal Information

Current position: Home >Personal Information

姓名:王文玺

学历学位:博士后/工学博士

专业技术职务:副研究员

研究方向:机器人自适应磨抛技术、加工状态智能监测技术、柔性磨具增材制备技术

办公地址:重庆大学A区机械与运载工程学院(第七教学楼)7504室

E-mail: wx.wang@cqu.edu.cn

通讯地址:重庆市沙坪坝区沙正街174号重庆大学A区机械与运载工程学院

2025年招生计划:学术&专业型硕士3~5名  (倡导:亦师亦友,共进共退;半引半促,自立自强)



1. 工作经历

2023.09-   至   今,重庆大学,机械与运载工程学院,前沿交叉研究所/高端装备机械传动全国重点实验室,副研究员

2022.11-2023.08,重庆大学,机械与运载工程学院,智能制造与工业工程系,讲师

2019.11-2022.10,重庆大学,机械与运载工程学院,智能制造与工业工程系,助理研究员/博士后


2. 教育背景

2014.09-2019.10,北京交通大学,机械工程,工学博士(硕博连读)

2016.10-2017.10,法国里昂大学-圣埃蒂安国立工程师学校,机械工程,博士生联合培养(CSC)

2013.09-2014.06,北京交通大学,机械制造及其自动化,工学硕士(硕博连读)

2009.09-2013.06,北京交通大学,机械工程及自动化,工学学士


3. 学术主页

Researchgate:https://www.researchgate.net/profile/Wenxi-Wang-3


4. 研究经历

(1) 主持项目

国家自然科学基金青年基金项目,“多重弱刚性航发整体叶盘粘弹性接触砂带磨削颤振机理与抑制方法”,2022.01-2024.12, No.52105430

重庆市自然科学基金面上项目,“叶片柔性磨削下结构化堆积磨料砂带磨损演化视觉监测及评价方法”,2024.07-2027.06, No.CSTB2024NSCQ-MSX0784

中国博士后科学基金面上项目,“基于机器视觉的叶片全型面砂带磨削磨损状态识别与寿命量化方法”,2023.12-2025.11, No.2023M740398

中国博士后科学基金面上项目,“刚柔时变接触航发空心风扇叶片砂带磨削颤振机理及其调控”,2020.07-2022.11, No.2020M673126(已结题)

重庆市自然科学基金博士后项目,2020.09-2022.05, No.cstc2020jcyj-bshX0128(已结题)

(2) 参研项目

国家自然科学基金面上基金项目,2024.01-2027.12, No.52475427

国家自然科学基金面上基金项目,2023.01-2026.12, No.52375408

国家自然科学基金面上基金项目,2022.01-2025.12, No.52175377

国家自然科学基金面上基金项目,2021.01-2024.12, No.52075059

北京交通大学成果转化项目,2018.03-2022.12,No.M18ZH00040

国家自然科学基金青年基金项目,2017.01-2019.12,No.51605024

国家自然科学基金青年基金项目,2016.01-2018.12,No.51505025

中国铁路总公司科技研究开发计划课题项目,2015.06-2017.05,No.2015G003-G


5. 近五年主要学术论文

2024年度

  • Ni YH, Wang WX*, He Y, Chen YZ, and Zhang YD. Laser-assisted belt grinding with creep feed for enhanced surface integrity and abrasive wear reduction[J]. Journal of Manufacturing Processes, 2024, 127: 115-128.(中科院Top)

  • Li MC, Wang WX*, Huang Y, Yan SB, Zhang PY, and Zou L. 3D printed compliance tool incorporated internal-impeller structure for high performance face grinding of titanium alloy[J], Journal of Materials Processing Technology, 2024, 329: 118446.(中科院Top)

  • Li MC, Huang Y, Wang WX*, Li H, Yan SB, Zou L. Enhanced heat transfer in 3D printed ball-end grinding tool with blade-shaped structure. Applied Thermal Engineering, 2024, 244: 122760.(中科院Top)

  • Li, MC, Huang Y, Wang WX*, Yan SB, Liu YJ, and Zou L. A novel 3D printed compliant ball-end grinding tool with crystal structure: Feasibility and performance analysis[J], Materials & Design, 2024, 237: 112591.(中科院Top)

  • Li H, Zou L, Wang WX*, and Li HN. Introducing abrasive wear into undeformed chip thickness modeling with improved grain kinematics in belt grinding[J], Journal of Manufacturing Processes, 2024, 108: 903-915.(中科院Top)

2023年度

  • 赵书东, 柳智明, 王文玺*, 等. 再制造叶片精准复形机器人砂带分层磨削策略[J], 中南大学学报(自然科学版), 2023, 54(11): 4359-4369.

  • Li MC, Zhao SD, Li H, Huang Y, Zou L, and Wang WX*. On energy assessment of titanium alloys belt grinding involving abrasive wear effect[J], Chinese Journal of Mechanical Engineering, 2023, 36: 115.

  • Li H, Zou L, Gui L, Li YT, Zhang XH, and Wang WX*. Effects of feed direction on material removal behavior in belt grinding of titanium alloys[J], Journal of Manufacturing Processes, 2023, 102: 756-764.

  • Zou L, Liu SQ, and Wang WX*. Up/down processing modes effects on residual stress for belt grinding[J], Materials and Manufacturing Processes, 2023, 38(7): 898-904.

2022年度

  • Zou L, Li YT, Gong MW, Han CC, Dong JM, Li H, Wang WX*, Effects of progressive wear of the hollow-sphere abrasive grain on recrystallization of DD6[J], International Journal of Advanced Manufacturing Technology, 2022, 121(1-2): 283-294. 

  • Zou L, Li H, Wang WX*, Huang Y, Li YT. A precision grinding technology for zirconium alloy tubes based on ultrasonic wall thickness automatic measurement system[J], International Journal of Advanced Manufacturing Technology, 2022, 121(7-8): 4419-4429. 

  • 王文玺, 黄云, 刘占芳*, 等. 大曲率表面机器人高速磨削中的陀螺力矩分析[J]. 机械工程学报, 2022, 58(15): 208-215.

2021年度

  • Huang Y, Wu Y, Xiao GJ, Zhang YD, and Wang WX*. Analysis of abrasive belt wear effect on residual stress distribution on a grinding surface[J]. Wear, 2021, 486: 204113.(中科院Top)

  • He Z, Li JY, Liu YM, and Wang WX*. Investigation of conditions leading to critical transitions between abrasive belt wear modes for rail grinding[J]. Wear, 2021, 484-485: 204048. (中科院Top)

  • Xiao GJ, Sone KK, Liu S, Wu Y, and Wang WX*. Comprehensive Investigation into the Effects of Relative Grinding Direction on Abrasive Belt Grinding Process[J]. Journal of Manufacturing Processes. 2021; 62: 753-761. 

  • Fan WG, Wang WX*, Wang JD, Zhang XL, Qian C, and Ma TF. Microscopic contact pressure and material removal modeling in rail grinding using abrasive belt[J]. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 2021, 235(1-2):3-12. 

2020年度

  • Wang WX*, Salvatore F, and Rech J. Characteristic assessment and analysis of residual stresses generated by dry belt finishing on hard turned AISI52100[J]. Journal of Manufacturing Processes, 2020, 59:11-18.

  • Huang Y, Liu S, Xiao GJ, He Y, and Wang WX*. Experimental investigation into the effects of adhesion wear on belt grinding of glass fiber reinforced plastics[J]. International Journal of Advanced Manufacturing Technology, 2020, 109(1): 463-473.

  • Zhao CY, Li JY, Fan WG, Liu YM, and Wang WX*. Experimental and simulation research on residual stress for abrasive belt rail grinding[J]. International Journal of Advanced Manufacturing Technology, 2020, 109(1): 129-142. 

  • Fan WG, Wang JD, Cheng JF, Qian C, and Wang WX*. Dynamic contact modeling considering local material deformation by grit indentation for abrasive belt rail grinding[J]. International Journal of Advanced Manufacturing Technology, 2020, 108(7-8): 2165-2176. 

  • Huang Y, He S, Xiao GJ, Li W, Jiahua SL, and Wang WX*. Effects research on theoretical-modelling based suppression of the contact flutter in blisk belt grinding[J]. Journal of Manufacturing Processes, 2020, 54: 309-317. 

  • 樊文刚, 王文玺*, 侯广友, 等. 考虑曲率匹配因素的钢轨砂带打磨宏观接触压力建模与仿真[J]. 机械工程学报, 2020, 56(2): 154-162.