张鑫泉 - 上海交通大学 - 机械与动力工程学院

个人简介

教育背景 2008-2012 新加坡国立大学，机械工程（博士） 2004-2008 哈尔滨工业大学，机械设计制造及其自动化（学士）工作经历 2019- 至今上海交通大学机械与动力工程学院，长聘副教授 2013-2019 新加坡制造技术研究院（SIMTech），研究科学家 2012-2013 新加坡国立大学，博士后研究员科研项目 [1] 中科院战略性先导专项A类（子课题），“靶超精密加工技术研究”，2020-2024，负责人 [2] 华为技术有限公司，“XXX技术合作项目”，2022年，负责人 [3] 国家海外高层次人才计划，“智能超精密加工技术研究”，2021-2023，负责人 [4] 国家自然科学基金（面上项目），“紫外辅助超声振动抑制黑色金属切削中金刚石刀具化学磨损的机理与方法研究”，2021-2024，负责人 [5] 上海市浦江人才计划（A类），“复杂多尺度微结构功能性光学表面的6轴超精密加工技术”，2019-2021，负责人 [6] 新加坡国立大学-新加坡制造技术研究院联合研究项目，“Machining of High-precision Roller Molds”，2013-2015，负责人 [7] 新加坡制造技术研究院内部研究项目，“Machining of High-precision Roller Molds for Roll-to-roll Embossing and Gravure Printing”，2015-2016，负责人 [8] 新加坡制造技术研究院内部研究项目，“Plasma-assisted Cutting of Non-diamond-machinable Materials”，2016-2017，负责人 [9] 企业联合研究项目，“CIP on Customised Tool Grinding, Edge Finishing & In-situ Measurement”，2016-2017，负责人 [10] 南洋理工大学-新加坡制造技术研究院联合研究项目，“Development of electrochemical mechanical polishing of tungsten carbide for glass lens molding”，2016-2019，负责人 [11] 新加坡国立大学-新加坡制造技术研究院联合研究项目，“Atmospheric Pressure Plasma Enhanced Surface Processing”，2017-2019，负责人 [12] 新加坡制造技术研究院内部研究项目，“Machining of Optic Molds for Glass Molding”，2017-2019，负责人著作： [1] Liu, K., Wang, H., Zhang, X., 2020, Ductile mode cutting of brittle materials, Springer 教学工作研究生课程（英文授课）：Ultra-precision Smart Manufacturing（超精密智能制造技术）软件版权登记及专利国际专利： Saw, S.M., Zhang, X., Pu, S.H., 2015, Device to prevent a condition or disease associated with a lack of outdoor time, International Application No.: PCT/SG2015/000089. 荣誉奖励 [1] 国家海外高层次人才计划（青年项目），2020 [2] 上海市海外高层次人才引进计划，2020 [3] 上海市浦江人才计划（A类），2019 [4] 新加坡制造研究院最佳研究成果奖（1/4），2018

研究领域

★超精密智能制造（Ultra-precision Smart Manufacturing） ■"5+X"轴超精密加工（"5+X" axis Ultra-precision Machining） ■多尺度微纳制造（Multiscale Micro/nano Fabrication） ■超声辅助制造（Ultrasonic Vibration Manufacturing） ★智能光学系统（Smart Optical System） ■微结构光学（Microstructured Optics） ■自由曲面光学（Freeform Optics） ■增强/虚拟现实光学（AR/VR Optics）

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

[1] Zhang, X.*, Wang, Z., Zhang, Z., Zhu, L., 2022, Dynamic rotating-tool turning of micro lens arrays, CIRP Annals - Manufacturing Technology, 71/1. [2] Zhang, X.*, Deng, H., Liu, K., 2019, Oxygen-shielded ultrasonic vibration cutting to suppress the chemical wear of diamond tools, CIRP Annals - Manufacturing Technology, 68/1: 69-72. [3] Zhang, X.*, Huang, R., Kumar, A.S., Liu, K., 2018, High-efficiency swinging-rotating diamond shaping of Fresnel lenses on roller molds, CIRP Annals - Manufacturing Technology, 67/1:121–124. [4] Zhang, X., Tnay, G.L., Liu, K., Kumar, A.S., 2018, Effect of apex offset inconsistency on hole straightness deviation in deep hole gun drilling of Inconel 718. International Journal of Machine Tools and Manufacture, 125:123–132. [5] Zhang, X.*, Arif, M., Liu, K., Kumar, A.S., Rahman, M., 2013, A model to predict the critical undeformed chip thickness in vibration-assisted machining of brittle materials. International Journal of Machine Tools and Manufacture, 69:57–66. 其他SCI论文： [6] Zhang, X., Meng, Y., Yang, Z., Zhang, Z., Ren, M., Zhu, L., 2022，Ultraviolet-ozone assisted ultrasonic vibration cutting for extending diamond tool life. Journal of Materials Processing Technology，117560. [7] Zhang, X., Huang, R., Wang, Y., Liu, K., Deng, H., Neo, DWK.,2022，Suppression of diamond tool wear with sub-millisecond oxidation in ultrasonic vibration cutting of steel. Journal of Materials Processing Technology，299:117320. [8] Zhang, X., Chen, Z., Chen, J., Wang, Z., Zhu, L., 2022，Fabrication of a microlens array featuring a high aspect ratio with a swinging diamond tool. Journal of Manufacturing Processes. 75:485-96. [9] Chen, Z., Wang, Z., Ren, M., Zhang, X., Zhu, L., Jiang, X.,2022，Development of an on-machine measurement system for ultra-precision machine tools using a chromatic confocal sensor. Precision Engineering. 74:232-41. [10] Ding, D., Zhao, Z., Huang, R., Dai, C., Zhang, X., Xu, T., et al，2021，Error modeling and path planning for freeform surfaces by laser triangulation on-machine measurement. IEEE Transactions on Instrumentation and Measurement，70:1-11. [11] Ajmal, KM., Yi, R., Zhan, Z., Ji J., Zhang, X., Deng, H., 2021，Highly efficient smoothing of Inconel 718 via electrochemical-based isotropic etching polishing. Precision Engineering-Journal of the International Societies for Precision Engineering and Nanotechnology. 71:119-29. [12] Arefin, S., Zhang, X., Kumar, AS., Neo, DWK., Wang, Y., 2021，Study of chip formation mechanism in one-dimensional vibration-assisted machining. Journal of Materials Processing Technology. 291. [13] Arefin, S., Zhang, X., Neo, DWK., Kumar, AS., 2021，Effects of cutting edge radius in vibration assisted micro machining. International Journal of Mechanical Sciences. 208. [14] Huang, R., Zhang, X., Ng BP., Kumar, AS., Liu, K., 2021，Roll-to-Roll Embossing of Optical Radial Fresnel Lenses on Polymer Film for Concentrator Photovoltaics: A Feasibility Study. International Journal of Precision Engineering and Manufacturing-Green Technology. 8(1):77-88. [15] Tan, NYJ., Neo, DWK., Zhang, X., Liu, K., Kumar AS., 2021，Ultra-precision direct diamond shaping of functional micro features. Journal of Manufacturing Processes. 64:209-23. [16] Tan, NYJ., Zhang, X., Neo, DWK., Huang, R., Liu, K., Kumar, AS.,2021，A review of recent advances in fabrication of optical Fresnel lenses. Journal of Manufacturing Processes. 71:113-33. [17] Zhou, X., Wang, F., Zhang, X., Deng H., 2021，Electrochemical polishing of microfluidic moulds made of tungsten using a bi-layer electrolyte. Journal of Materials Processing Technology. 292. [18] Ding, D., Zhao, Z., Zhang, X., Fu, Y., Xu, J., 2020，Evaluation and compensation of laser-based on-machine measurement for inclined and curved profiles. Measurement. 151. [19] Guo, W., Anantharajan, SK., Zhang, X., Deng, H., 2020，A Study on the Damage Layer Removal of Single-Crystal Silicon Wafer After Atmospheric-Pressure Plasma Etching. Journal of Micro and Nano-Manufacturing. 8(2). [20] Yi, R, Zhang, Y., Zhang, X., Fang, F., Deng, H., 2020，A generic approach of polishing metals via isotropic electrochemical etching. International Journal of Machine Tools & Manufacture. 150. [21] Zhang, X., Deng, H., Liu, K., 2019，Oxygen-shielded ultrasonic vibration cutting to suppress the chemical wear of diamond tools. Cirp Annals-Manufacturing Technology. 68(1):69-72. [22] Wang, F., Zhang, X., Deng, H., 2019, A comprehensive study on electrochemical polishing of tungsten, Applied Surface Science, 475, 587-597. [23] Zhang, X., Huang, R., Liu, K., Kumar, A.S., Deng, H., 2018, Suppression of diamond tool wear in machining of tungsten carbide by combining ultrasonic vibration and electrochemical processing, Ceramics International, 44(4):4142–4153. [24] Huang, R., Zhang, X.*, Neo, W.K., Kumar, A.S., Liu, K., 2018, Ultra-precision machining of grayscale pixelated micro images on metal surface, Precision Engineering, 52:211-220. [25] Huang, W., Yu, D., Zhang, X., Zhang, M., Chen D., 2018, Ductile-regime machining model for ultrasonic elliptical vibration cutting of brittle materials, Journal of Manufacturing Processes, 36:68-76. [26] Zhang, X., Huang, R., Liu, K., Kumar, A.S., Shan, X., 2018, Rotating-tool diamond turning of Fresnel lenses on a roller mold for manufacturing of functional optical film, Precision Engineering, 51:445–457. [27] Huang, R., Zhang, X.*, Kumar, A.S., Liu, K., Rahman, M., 2017, Profile evaluation of radial Fresnel lens directly machined on roller molds by rotating-tool diamond turning. Precision Engineering, 50:44–52. [28] Deng, H., Huang, R., Liu, K., Zhang, X.*, 2017, Abrasive-free polishing of tungsten alloy using electrochemical etching, Electrochemistry Communications, 82:80–84. [29] Deng, H., Zhang, X.*, Liu, K., Yamamura, K., Sato, H., 2017, Polishing of Tungsten Carbide by Combination of Anodizing and Silica Slurry Polishing, Journal of the Electrochemical Society, 164:E352–E359. [30] Verkicharla, P.K., Ramamurthy, D., Nguyen, Q.D., Zhang, X., Pu, S.H., Malhotra, R., Saw, S.M., 2017. Development of the FitSight Fitness Tracker to Increase Time Outdoors to Prevent Myopia. Translational Vision Science & Technology, 6(3):20. [31] Shan, X., Zhang, X., Huang, R., Liu, K., 2017, Micromachining of a roller mould and roll-to-roll imprinting to form large area optical films with radial Fresnel lens arrays, Japanese Journal of Applied Physics, 56:05EA02. [32] Huang, R., Zhang, X.*, Rahman, M., Kumar, A.S., Liu, K., 2015, Ultra-precision machining of radial Fresnel lens on roller moulds, CIRP Annals - Manufacturing Technology, 64/1:121–124. [33] Zhang, X.*, Liu, K., Sunappan, V., Shan, X., 2015, Diamond micro engraving of gravure roller mould for roll-to-roll printing of fine line electronics, Journal of Materials Processing Technology, 225:337–346. [34] Zhang, X.*, Liu, K., Kumar, A.S., Rahman, M., 2014, A study of the diamond tool wear suppression mechanism in vibration-assisted machining of steel, Journal of Materials Processing Technology, 214:496–506. [35] Zhang, X.*, Liu, K., Shan, X., Liu, Y., 2014, Roll-to-roll embossing of optical linear Fresnel lens polymer film for solar concentration, Optics Express, 22(S7):A1835-A1842. [36] Zhang, X., Kumar, A.S., Rahman, M., Liu, K., 2013, Modeling of the effect of tool edge radius on surface generation in elliptical vibration cutting, International Journal of Advanced Manufacturing Technology, 65:35–42. [37] Zhang, X., Senthil Kumar, A., Rahman, M., Nath, C., Liu, K., 2012, An analytical force model for orthogonal elliptical vibration cutting technique, Journal of Manufacturing Processes, 14:378–387. [38] Zhang, X., Senthil Kumar, A., Rahman, M., Nath, C., Liu, K., 2011, Experimental study on ultrasonic elliptical vibration cutting of hardened steel using PCD tools. Journal of Materials Processing Technology, 211:1701–1709.

个人简介

研究领域

近期论文

学术兼职