| 姓名: |
曹中臣 |
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| 性别: |
男 |
| 英文名: |
Cao Zhongchen |
| 人才称号: |
北洋学者-青年骨干教师 |
| 职称: |
副教授,博士生导师 |
| 职务: |
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专业: |
机械制造及其自动化 |
| 所在机构: |
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个人主页: |
http://me.tju.edu.cn/faculty_teachers.action?cla=5&teacherid=2013 |
| 邮箱: |
zhongchen_cao@tju.edu.cn |
办公地点: |
37号楼422室 |
| 传真: |
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办公电话: |
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| 主要学历: |
2012/04-2015/04, 香港理工大学,工业及系统工程学系,博士
2009/09-2011/11, 哈尔滨工业大学,机械工程学系,硕士
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| 主要学术经历: |
2015/04-2017/05,香港理工大学,超精密加工技术国家重点实验室,博士后研究员
2017/05-至今,天津大学,机械工程学院,讲师、副教授
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| 主要研究方向: |
超精密加工技术、智能制造与工业机器人技术、极端制造技术及装备
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| 主要讲授课程: |
1. 金属工艺学
2. 机械工程训练
3. 机械工程训练基础
4. 设计与制造基础3A
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| 主要学术兼职: |
机械工程高级会员
光学工程高级会员
中国机械工程学会极端制造分会委员
先进光学制造青年专家委员会委员
中机生产工程分会精密及纳米专业领域委员
天津市光学学会理事
国际纳米制造协会会员
美国精密工程学会会员
国家自然科学基金面上项目函评专家
期刊Applied Science 特刊“智能机器人与精密加工研究进展”客座编辑
Electrical Engineering and Computer Science (EECS)编委
第五届制造技术、材料与化学工程国际学术会议(MTMCE 2022)组委会成员
第八届机械设计和工程国际会议(ICMDE2022)程序委员会成员
第七届亚太光学制造会议暨2021年国际先进制造青年科学家论坛 程序委员会成员
第四届制造技术、材料与化学工程国际学术会议(MTMCE 2021)组委会成员
第三届机械工程与智能制造国际会议(WCMEIM 2020) 组委会成员
第六届亚太光学制造会议(APCOM) 程序委员会成员
第二届机械工程与智能制造国际会议(WCMEIM 2019)组委会成员
第九届国际光学与电子技术交流大会(APOC2020)程序委员会成员
担任国际著名期刊Optics Express, International Journal of Machine Tools and Manufacture, Robotics and Computer Integrated Manufacturing, Precision Engineering, Chinese Journal of Mechanical Engineering等的期刊文章评审专家
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| 主要学术成就: |
主要从事超精密加工技术与智能制造装备的基础理论、创新工艺及应用研究,得到了一系列具有原理性创新的研究成果,弥补了现行超精密加工领域许多的缺陷与不足。主持或参加国家、部委及横向课题等10余项;在J Mater Process Tech、Opt Express、ROBOT CIM-INT MANUF、Int J Mech Sci,等高水平学术期刊发表被 SCI收录论文30余篇。
2022年, 军事科学技术进步奖 二等奖
2022年, 机械工业科学技术奖一等奖
2022年,全国第三届金工/工训青年教师微课教学评选活动-特优奖
2022年, 高性能制造国际学术交流会暨中国科协青年科学家沙龙-青年报告
2022年, 被评为“优秀毕设指导教师”
2021年, 天津市科学技术奖技术发明一等奖
2021年,“先进光学设计与光学制造”青年学者论坛-大会报告
2020年,入选“北洋学者-青年骨干教师”计划
2020年,光整加工技术及表面工程学术会议—大会邀请报告
2020年,第九届国际光学与电子技术交流大会—大会邀请报告
2017年,第十四届切削与先进制造技术学术会议—优秀论文奖
2017年,第十七届国际制造会议(IMCC 2017)—优秀论文奖
2017年,国际纳米制造协会(ISNM)活跃会员
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| 主要科研项目: |
1.中国科学院光电技术研究所合作项目,******定量磨削技术研究,2022,主持
2.天津津航技术物理研究所合作项目, ******面形精度补偿模块,2022,主持
3. 中船集团航海保障技术实验室开放基金项目,异形薄壁******抛光技术研究,2020 -2021,主持
4. 国家自然科学基金青年项目,面向复杂型面光学器件的超声空化辅助多喷嘴射流抛光工艺机理研究,2020-2022,主持
5.中国工程物理研究院****合作项目,2019GFW-0186,机器人******运动特性研究,2019,主持
6.中国船舶重工集团公司第七0七研究所****合作项目,2019GKF-0024,*****超精密抛光工艺研究,2019,主持
7.上海交通大学机械系统与振动国家重点实验室开放基金,2019E7-0002,复杂薄壁零件面形自适应磨抛工艺及表面完整性控制策略研究,2019-2020,主持
8.国家自然科学基金面上项目,2019B1-0104,面向大口径非球面光学元件的流体动压磨抛工艺加工理论与试验研究,2019-2022,62万元,参加
9.天津市自然科学基金重点项目,2018F1-0009,精细陶瓷典型复杂型面零件的超精密数控抛光技术研究,2018-2021,主持
10.国家科技重大专项项目, 2018Z2-0002,机器人抛光机床性能提升研究,2017-2019,271万元,课题副组长
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| 代表性论著: |
期刊论文:
[1]. Cao, Zhong-Chen#, Wang, M., Yan, S.Q., Zhao, C.Y., Liu, H.T., “Surface integrity and material removal mechanism in fluid jet polishing of optical glass”, Journal of Materials Processing Technology, Vol. 311, (2023). (SCI Journal, JCR/Q1, IF=6.162)
[2]. Zhou, J.N., Cao, Zhong-Chen#, Zhang, J.P., Zhao, C.Y., Liu, H.T., “Development and theoretical analysis of novel surface adaptive polishing process for high-efficiency polishing of optical freeform surface”, Journal of Manufacturing Processes, Vol. 80, pp.874-886 (2022). (SCI Journal, JCR/Q1, IF= 5.684)
[3]. Zhang, J.P., Cao, Zhong-Chen#, Zhang, Y., Lin, B., “Investigation on surface evolution and subsurface damage in abrasive lapping of hard and brittle materials using a novel fixed lapping tool”, Journal of Manufacturing Processes, Vol. 75, pp.729-738 (2022). (SCI Journal, JCR/Q1, IF= 5.684)
[4]. Jiang, X.M., Lin, B., Cao, Zhong-Chen#, Jiang, X.X., “Modeling and experimenting of disc hydrodynamic polishing process for ultra-smooth surfaces”, Journal of Manufacturing Processes, Vol. 72, pp.80-92 (2022). (SCI Journal, JCR/Q1, IF= 5.684)
[5]. Lv, B.R., Lin, B., Cao, Zhong-Chen, Li, B., Wang, G.L., “A parallel 3-DOF micro-nano motion stage for vibration-assisted milling“, Mechanism and Machine Theory, Vol. 173, (2022) . (SCI Journal, JCR/Q1, IF= 4.93)
[6]. Lin, B., Zhang, J.P., Cao, Zhong-Chen#, Zhou, J.N., Huang, T., “Theoretical and experimental investigation on surface generation and subsurface damage in fixed abrasive lapping of optical glass“, International Journal of Mechanical Sciences, Vol. 215, (2021). (SCI Journal, JCR/Q1, IF= 6.772)
[7]. Cao, Zhong-Chen#, Yan, S.Q., Li, S.P, Zhang, Y., “Theoretical Modeling and Experimental Analysis of Single-Particle Erosion Mechanism of Optical Glass“, Micromachines, Vol. 215, (2021). (SCI Journal, JCR/Q2, IF= 3.523)
[8]. Lin, B., Li, S.P, Cao, Zhong-Chen#, Zhang, Y., Jiang, X.M., “Theoretical modeling and experimental analysis of single-grain scratching mechanism of fused quartz glass”, Journal of Materials Processing Technology, Vol. 293, (2021). (SCI Journal, JCR/Q1, IF=6.162)
[9]. Huang T., Zhao, D., Cao, Zhong-Chen#, “Trajectory planning of optical polishing based on optimized implementation of dwell time” , Precision Engineering - Journal of the International Societies for Precision Engineering and Nanotechnology, Vol.62, pp.223-231 (2020). (SCI Journal, JCR/Q2, IF=3.315)
[10]. Lin, B., Jiang, X.M., Cao, Zhong-Chen#, Huang T., Li, K.L., “Theoretical and experimental analysis of material removal and surface generation in novel fixed abrasive lapping of optical surface”, Journal of Materials Processing Technology, Vol. 279, (2020). (SCI Journal, JCR/Q1, IF=6.162)
[11]. Liu, M.Y., Cheung, C.F.#, Feng, X., Wang, C.J., Cao, Zhong-Chen, “Any-degrees-of-freedom (anyDOF) registration for the characterization of freeform surfaces”, Precision Engineering - Journal of the International Societies for Precision Engineering and Nanotechnology, Vol. 62, pp. 170-180, (2020) (SCI Journal, JCR/Q2, IF=3.315)
[12]. Lin, B., Jiang, X.M., Cao, Zhong-Chen#, Huang T., “Development and theoretical analysis of novel center-inlet computer-controlled polishing process for high-efficiency polishing of optical surfaces”, Robotics and Computer-Integrated Manufacturing, Vol. 59, pp. 1-12, (2019). (SCI Journal, JCR/Q1, IF=10.103)
[13]. Lin, B., Li, K.L., Cao, Zhong-Chen#, Huang T., “Modeling of pad surface topography and material removal characteristics for computer-controlled optical surfacing process”, Journal of Materials Processing Technology, Vol. 265, pp. 210-218, (2019). (SCI Journal, JCR/Q1, IF=6.162)
[14]. Lin, B., Jiang, X.M., Li, S.P., and Cao, Zhong-Chen#, “Mechanism of material removal by fixed abrasive lapping of fused quartz glass”, Journal of Manufacturing Processes, Vol.46, pp. 279-285 (2019). (SCI Journal, JCR/Q1, IF=5.684)
[15]. Lin, B., Jiang, X.M., Cao, Zhong-Chen# and Li, Y., “Novel Disc Hydrodynamic Polishing Process and Tool for High-Efficiency Polishing of Ultra-Smooth Surfaces”, Micromachines, Vol. 9, pp.333 (2018). (SCI Journal, JCR/Q2, IF=3.523)
[16]. Cao, Zhong-Chen, Cheung, C.F. # and Liu, M.Y., “Model based self-optimization method for form correction in the computer controlled bonnet polishing of optical freeform surfaces”, Optics Express, Vol. 26, pp. 2065-2078 (2018). (SCI Journal, JCR/Q1, IF=3.833)
[17]. Su, Y.H., Lin, B.# and Cao, Zhong-Chen, “Prediction and verification analysis of grinding force in the single grain grinding process of fused silica glass”, International Journal of Advanced Manufacturing Technology, Vol. 96, pp.597-606 (2018). (SCI Journal, JCR/Q2, IF=3.563)
[18]. Cheung, C.F.#, Wang, C.J., Cao, Zhong-Chen, Ho, L.T., “Development of a multi-jet polishing process for inner surface finishing”, Precision Engineering - Journal of the International Societies for Precision Engineering and Nanotechnology, Vol.52, pp.112-121 (2018). (SCI Journal, JCR/Q2, IF=3.315)
[19]. Cao, Zhong-Chen, Cheung, C.F. #, Ho, L.T. and Liu M.Y., “Theoretical and experimental investigation of surface generation in swing precess bonnet polishing of complex three-dimensional structured surfaces”, Precision Engineering - Journal of the International Societies for Precision Engineering and Nanotechnology, Vol. 50, pp. 361-371 (2017). (SCI Journal, JCR/Q2, IF=3.315)
[20]. Cao, Zhong-Chen and Cheung, C.F. # “Multi-scale Modelling and Simulation of Material Removal Characteristics in Computer-controlled Bonnet Polishing”, International Journal of Mechanical Sciences, Vol. 106, pp.147-156 (2016). (SCI Journal, JCR/Q1, IF=6.772)
[21]. Cao, Zhong-Chen, Cheung, C.F. # and Zhao X., “A theoretical and experimental investigation of material removal characteristics and surface generation in bonnet polishing”, Wear, Vol. 360-361, pp. 137-146 (2016). (SCI Journal, JCR/Q1, IF=4.695)
[22]. Cao, Zhong-Chen, Cheung, C.F. # and Ren M.J. “Modelling and Characterization of Surface Generation in Fluid Jet Polishing”, Precision Engineering - Journal of the International Societies for Precision Engineering and Nanotechnology, Vol.43, pp.406–417 (2016). (SCI Journal, JCR/Q2, IF=3.315)
[23]. Cao, Zhong-Chen and Cheung, C.F.* “An Experimental Study of Effect of Process Parameters on the Tool Influence Function for Fluid Jet Polishing”, Key Engineering Materials, Vol.679, pp.91-96 (2016). (EI)
[24]. Cao, Zhong-Chen, Cheung, C.F.*and Kong, L.B. “Computational fluid dynamics–based analysis of material removal characteristics in fluid jet polishing”, Proceeding of IMechE, Part B, Journal of Engineering Manufacture, Vol.230, pp.1035–1048 (2015). (SCI Journal, JCR/Q3, IF= 1.982)
[25]. Cao, Zhong-Chen and Cheung C.F.#, “Theoretical Modelling and Analysis of the Material Removal Characteristics in Fluid Jet Polishing”, International Journal of Mechanical Sciences, Vol.89, pp.158–166 (2014). (SCI Journal, JCR/Q1, IF=6.772)
会议论文:
[1]. Lv, B.R., Lin, B., Cao, Z.C., Liu, C.Y., Zhao, P.C., “Design and Application of Macro and Micro-combined Mechanism for Textured Surface Machining”, IEEE International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale, Tianjin, China, (2022)
[2]. Jiang, X.M., Cao, Z.C.*, Lin, B.*, Huang, T., “Experimental study on a novel systematic machining process chain for large-aperture ultra-smooth optical surface”, The 10th International Symposium on Advanced Optical Manufacturing and Testing Technologies,Chengdu, China, (2021)
[3]. Zhang, J.P., Cao, Z.C.*, Lin, B.*, “Study on surface evolution and subsurface damage in novel fixed abrasive lapping of hard brittle materials“, The 7th International Conference on Nanomanufacturing, Xian, China, (2021)
[4]. Jiang, X.M., Lin, B.*, Cao, Z.C.*, “Research On Ultra-precision Polishing Process of Semiconductor Wafer Surface Based on Disc Hydrodynamic Polishing”, China Semiconductor Technology International Conference, Shanghai, China, (2021)
[5]. Cao, Z.C., Jiang, X.M., Lin, B., “A study of materials removal mechanisms for disc hydrodynamic polishing using computational fluid dynamics modelling”, 9th Applied Optics and Photonics China——Optics Ultra Precision Manufacturing and Testing, shanghai, China, (2020)
[6] Jiang, X.M. Cao, Z.C., Lin, B., Li, K.L., “An investigation of slurry erosion analysis for disc hydrodynamic polishing”, Sixth Asia Pacific Conference on Optics Manufacture (APCOM), Hongkong, China, (2020)
[7]. Cao, Z.C., Jiang, X.M., Lin, B., “Novel fixed-abrasive lapping process and tool for high-efficiency finishing of large aspheric optical surfaces”, International conference of advanced surface enhancement, Singapore, (2019)
[8]. Cao, Z.C., Lin, B., Jiang, X.M., Li, Y., “Flow field analysis of the thin fluid film in disc hydrodynamic polishing”, Proceedings of the 8th CIRP Conference on High Performance Cutting, Budapest, Hungary, (2018)
[9]. Cao, Z.C., Cheung, C.F., Jiang, J.B., and Liu, M.Y., “A Self-Optimization Approach for Precision Machining and Measurement of Freeform Surfaces”, Proceedings of the 17th International Manufacturing Conference in China” Shenzhen, China, (2017)
[10]. 曹中臣,张志辉,林彬, “针对气囊抛光技术轨迹规划对抛光表面质量的实验研究” 第十四届切削与先进制造技术学术会议 2017 年 6 月 9-12 日 深圳
[11]. Zhao, C.Y., Cheung, C.F., Chen, S.S. and Cao, Z.C., " Modeling and simulation of surface generation in ultra-precision grinding based on the surface topography of grinding wheel ", Proceedings of the 17th International Conference & Exhibition, Hannover Congress Centre, Hannover, Germany, accepted (2017)
[12]. Cheung, C.F., Cao Z.C. and Ho, L.T., “An Investigation of surface generation in swing precess bonnet polishing of functional 3D-structured surface” Proceedings of the 17th International Conference & Exhibition, Hannover Congress Centre, Hannover, Germany, accepted (2017).
[13]. Cao, Z.C., Cheung, C.F. and Ho, L.T.“Optimization Analysis of the Material Removal in Fluid Jet Polishing” Proceeding of the 5th International Conference on Nanomanufacturing (nanoMan2016), August 15-17, Macau. (2016)
[14]. Cheung, C.F., Cao Z.C. and Ho, L.T.,," Research on Material Removal Characteristics and Surface Generation in Computer Controlled Ultra-precision Polishing”" Technical Contributions and Call for Technical Contributions and Laboratory presentation at the STC G meeting in August 2016 (Guimarães, Portugal).
[15]. Cheung, C.F., Cao Z.C., “A Study of Factors Affecting Material Removal in Computer-controlled Bonnet Polishing” Proceedings of the 30th ASPE Annual Meeting, Austin, TX, accepted (2015).
[16]. Cao, Z.C. and Cheung, C.F. “A Study of Materials Removal Mechanisms for Fluid Jet Polishing Using Computational Fluid Dynamics Modelling”, Proceedings of the 29th ASPE Annual Meeting, Boston, Massachusetts, USA, accepted (2014).
[17]. Cao, Z.C. and Cheung, C.F. “A Study of Finite Element Analysis of Materials Removal Characteristics in Fluid Jet Polishing”, Proceedings of the 2nd International Conference on Abrasive Processes (ICAP 2014), Sept 9 – Sept 10, Cambridge, UK, accepted (2014).
已发表的专著:
[1] Kong, L.B., Cao, Z.C. and Ho, L.T., “Bonnet Polishing of Microstructured Surface”, in: J. Yan (Ed.) Micro and Nano Fabrication Technology, Springer Singapore, Singapore, 2018, pp. 1-50. (Book Chapter)
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