English  
利来w66线上平台手机版app - 利来国际w66官方平台
姓名: 曹中臣
性別:
英文名: Cao Zhongchen
人才稱號:
職稱: 講師
職務: 專業:
所在機構: 個人主頁: http://faculty.tju.edu.cn/zhongchen_cao/zh_CN/index.htm
郵箱: zhongchen_cao@tju.edu.cn 辦公地點: 37號樓422室
傳真: 辦公電話:
主要學歷: 2012/04-2015/04, 香港理工大學,工業及系統工程學系,博士
2009/09-2011/11, 哈爾濱工業大學,機械工程學系,碩士

主要學術經歷: 2015/04-2017/05,香港理工大學,超精密加工技術國家重點實驗室,博士后研究員

主要研究方向: 超精密加工技術與智能制造裝備

主要講授課程: 1. 金屬工藝學
2. 機械工程訓練
3. 機械工程訓練基礎

主要學術兼職: 光學工程高級會員
國際納米制造協會會員
美國精密工程學會會員
Electrical Engineering and Computer Science (EECS)編委
第六屆亞太光學制造會議(APCOM) 程序委員會成員
第二屆機械工程與智能制造國際會議(WCMEIM 2019)組委會成員
第九屆國際光學與電子技術交流大會(APOC2020)程序委員會成員
擔任國際著名期刊Optics Express, International Journal of Machine Tools and Manufacture,
Robotics and Computer Integrated Manufacturing, Precision Engineering, Chinese Journal of Mechanical Engineering等的期刊文章評審專家

主要學術成就: 主要從事超精密加工技術與智能制造裝備的基礎理論、創新工藝及應用研究,得到了一系列具有原理性創新的研究成果,彌補了現行超精密加工領域許多的缺陷與不足。主持或參加國家、部委及橫向課題等10余項;在J Mater Process Tech、Opt Express、ROBOT CIM-INT MANUF、Int J Mech Sci,等高水平學術期刊發表被 SCI收錄論文20余篇。

2020年,入選“北洋學者-青年骨干教師”計劃
2020年,第九屆國際光學與電子技術交流大會—大會邀請報告
2017年,第十四屆切削與先進制造技術學術會議—優秀論文獎
2017年,第十七屆國際制造會議(IMCC 2017)—優秀論文獎
2017年,國際納米制造協會(ISNM)活躍會員

主要科研項目: 1. 國家自然科學基金青年項目,面向復雜型面光學器件的超聲空化輔助多噴嘴射流拋光工藝機理研究,2020/01-2022/12,主持
2.中國工程物理研究院科研外協合作項目,2019GFW-0186,機器人******運動特性研究,2019/06-2019/11,主持
3. 中國工程物理研究院科研外協合作項目,2019GFW-0185,機器人*********影響規律研究, 2019/06-2019/12,主持
4.中國船舶重工集團公司第七0七研究所技術開發合作項目,2019GKF-0024,*****超精密拋光工藝研究,2019/01-2019/12,主持
5.上海交通大學機械系統與振動國家重點實驗室開放基金,2019E7-0002,復雜薄壁零件面形自適應磨拋工藝及表面完整性控制策略研究,2019/01-2020/12,主持
6.國家自然科學基金面上項目,2019B1-0104,面向大口徑非球面光學元件的流體動壓磨拋工藝加工理論與試驗研究,2019/01-2022/12,62萬元,參加
7.天津市自然科學基金重點項目,2018F1-0009,精細陶瓷典型復雜型面零件的超精密數控拋光技術研究,2018/04-2021/03,主持
8.國家科技重大專項項目, 2018Z2-0002,機器人拋光機床性能提升研究,2017/04-2019/12,271萬元,課題副組長

代表性論著: 期刊論文:

[1]. 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=4.178)
[2]. 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= 2.685)
[3]. 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=4.392)
[4]. 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=4.178)
[5]. 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/Q2, IF=3.462)
[6]. 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=2.426)
[7]. 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=3.561)
[8]. 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=2.601)
[9]. 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=2.237)
[10]. 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= 2.685)
[11]. 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=4.134)
[12]. 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=2.95)
[13]. 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= 2.685)
[14]. 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)
[15]. 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= 1.752)
[16]. 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=4.134)

會議論文:

[1]. 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)
[2]. 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)
[3]. 曹中臣,張志輝,林彬, “針對氣囊拋光技術軌跡規劃對拋光表面質量的實驗研究” 第十四屆切削與先進制造技術學術會議 2017 年 6 月 9-12 日 深圳
[4]. 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)
[5]. 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).
[6]. 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)
[7]. 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 (Guimar?es, Portugal).
[8]. 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).
[9]. 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).
[10]. 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).

已發表的專著:

[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)

院長信箱 | 黨委書記信箱 | 相關鏈接 | 聯系我們 | 法律聲明
? 2018-2019 機械工程學院 版權所有 [技術支持]天津市天深科技股份有限公司