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姓名: 張大衛
性別:
英文名: Zhang Dawei
人才稱號:
職稱: 教授、博導
職務: 產品設計與制造技術研究所所長 專業: 機械制造及自動化
所在機構: 機械工程系 個人主頁:
郵箱: medzhang@tju.edu.cn 辦公地點: 天津大學機械工程學院,300072
傳真: +86(0)22 87401950 辦公電話: +86(0)22 87401950
主要學歷: 1980.09-1984.07 沈陽工業大學 機械制造及工藝裝備專業 本科
1987.09-1990.03 天津大學 機械制造及其自動化專業 碩士
1992.09-1995.09 天津大學 機械制造及其自動化專業 博士

主要學術經歷: 1984.07-1987.09 天津第十八研究所 助工
1990.03- 至今 天津大學機械工程系 講師(1990)/副教授(1993)/教授(1997)
1998.07-2009.12 香港科大\英國華威大學\東京工業大學\澳大利亞莫納什大學訪問學者

主要研究方向: 1. 高擋數控機床精度設計與補償技術
2. 數控機床熱誤差主動控制技術與裝備
3. 微納制造、檢測技術與裝備
4. 噴涂機器人設計理論與應用技術

主要講授課程: 1. 機械振動
2. 機床動力學
3. 現代機械工程學
4. 工程制圖基礎

主要學術兼職: 1. IMCC制造技術國際會議工作委員會委員
2. 全國高校制造技術與機床研究會理事
3. 全國機械動力學學會理事
4. 天津市振動工程學會理事
5. 天津市自行車技術工程中心學術委員
6. 天津市武清汽車產業園顧問

主要學術成就: 主要從事機械結構靜動態設計方法、數控機床精度設計與補償方法、數控機床熱特性檢測與主動控制技術、超精密定位技術、涂裝機器人等方面的教學和科研工作。近十年來,主持國家863重大和重點課題、國家數控機床重大專項、國家和省市部委自然科學基金、橫向課題20余項,在國內外學術刊物和會議上共發表論文100余篇,被SCI收錄35篇,獲國家發明專利15項,獲國家教育部和天津市科技進步獎3項,天津市自然科學獎1項。

主要科研項目: 1. 數控機床誤差測量、分析與補償技術,"高檔數控機床與基礎制造裝備" 國家科技重大專項 (2015ZX04014-011),2015-2017
2. 箱體類精密工作母機共性前沿技術平臺,國家高技術研究發展計劃重大課題(863計劃-2012AA040701),2012-2015
3. 三維可控探針納米加工系統及其關鍵技術研究,國家自然科學基金(51275337),2013-2016
4. 精密立臥式加工中心技術創新平臺,"高檔數控機床與基礎制造裝備" 國家科技重大專項 (2012ZX04012-031,合作課題),2012-2015
5. 高速精密IC芯片引線鍵合機設計理論與樣機建造,天津市科技支撐計劃重點項目(),2010-2013
6. 高速精密機床動態性能建模、仿真與測試系統,國家高技術研究發展計劃重點課題(863計劃-2008AA042406),2009-2010
7. 用于鈦合金航空結構件加工的五軸聯動加工中心,"高檔數控機床與基礎制造裝備" 國家科技重大專項 (2009ZX04001-041,合作課題),2009-2010
8. 帶AB軸的高速五軸聯動加工中心,"高檔數控機床與基礎制造裝備" 國家科技重大專項(2009ZX04001-043,合作課題),2009- 2010
8. 五軸聯動精密臥式加工中心,"高檔數控機床與基礎制造裝備" 國家科技重大專項(2009ZX04001-025,合作課題),2009- 2010

代表性論著: [01]Y. Tian, D. Zhang, B. Shirinzadeh, Dynamic modelling of a flexure-based mechanism for ultra-precision grinding operation, Precision Engineering, 2011, 35(4): 554-565.
[02]Qin Y D, Tian Y L, Zhang D W , Design and Dynamic Modeling of a 2-DOF Decoupled Flexure-Based Mechanism,Chinese Journal of Mechanical Engineering,2011, 25(4): 688-696.
[03] Y. Tian, B. Shirinzadeh, D. Zhang, Y. Zhong, Modeling and analysis of a 3-RRR parallel micro-positioning mechanism, PIMechE Part C, Journal of Mechanical Engineering Science, 2011, 255(5):1027-1043.
[04] J. Li, D. Zhang, Camera calibration with a near-parallel imaging system based on geometric moments, Optical Engineering, 2011, 50(2): 023601.
[05] F. Wang, X. Zhao, D. Zhang, Design and control of high acceleration precision positioning system with novel flexible decoupling mechanism, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2010, 224(2): 431-442.
[06] F. Wang, X. Zhao, D. Zhang, Y. Wu, Design and control of a rotary voice coil actuator direct-drive bond head with high acceleration for thermosonic bounding, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2010, 224(4): 805-815.
[07] Z. Ni, D. Zhang, Y. Wu, Analysis of parasitic motion in parallelogram compliant mechanism, Precision Engineering, 2010, 32(1): 133-138.
[08] Y. Tian, B. Shirinzadeh, D. Zhang, Design and dynamics of a 3-DOF flexure-based parallel mechanism for micro/nano manipulation, Microelectronic Engineering, 2010, 87(2): 230-241.
[09] Y. Tian, B. Shirinzadeh, D. Zhang. Three flexure hinges for compliant mechanism design based on dimensionless graph analysis, Precision Engineering, 2010, 34(1): 92-100.
[10] Y. Tian, B. Shirinzadeh, D. Zhang, A flexure-based mechanism and control methodology for ultra-precision turning operation, Precision Engineering, 2009, 33(2): 160-166.
[11] F. Wang, X. Zhao, D. Zhang,, Development of novel ultrasonic transducers for microelectronics packaging, Journal of Materials Processing Technology, 2009, 209(3): 1291-1301
[12] Y. Tian, X. Liu, D. Zhang, Dynamic modeling of the fidelity of random surface measurement by the stylus method, Wear, 2009, 266(5-6): 555-559.
[13] Y. Tian, B. Shirinzadeh, D. Zhang, Development and dynamic modeling of a flexure-based Scott- Russell mechanism for nano-manipulation, Mechanical Systems and Signal Processing, 2009, 23(3): 957-978.
[14] H. Qi, D. Zhang, Y. Cai, Modeling methodology of flexible milling force for cycloid gear on high speed peripheral milling process system, Chinese Journal of Mechanical Engineering, 2009, 45(9):164-172.
[15] Y. Tian, B. Shirinzadeh, D. Zhang, A flexure-based five-bar mechanism for micro/nano manipulation, Sensors and Actuators A: Physical, 2009, 153(1): 96-104.
[16] Y. Tian, B. Shirinzadeh, D. Zhang, Design and forward kinematics of the compliant micro-manipulator with lever mechanisms, Precision Engineering, 2009, 33(4): 466-475.
[17] Y. Tian, B. Shirinzadeh, D. Zhang, Effects of the heat source profiles on the thermal distribution for ultra-precision grinding, Precision Engineering, 2009, 33(4): 447-458.
[18] F. Wang, X. Zhao, D. Zhang, Development of novel ultrasonic transducers for microelectronics packaging, Journal of Materials Processing Technology, 2009, 209(3): 1291-1301
[19] F. Wang, H. Mao, D. Zhang, Online study of cracks during laser cladding process based on acoustic emission technique and finite element analysis, Applied Surface Science, 2008, 255(5): 3267-3275
[20] F. Wang, H. Mao, D. Zhang, The crack control during laser cladding by adding the stainless steel net in the coating, Applied Surface Science, 2009, 255(21): 8846-8854
[21] H. Chen Huawei, D. Zhang, I. Hagiwara, Motion error diagnosis of 5-axis machining center using DBB method, Chinese Journal of Mechanical Engineering(English), 2006, 19(12): 21~24
[22] D. Zhang, D.G. Chetwynd, X. Liu and Y. Tian. Investigation of a 3-DOF micro-positioning table for surface grinding, International Journal of Mechanical Sciences, 2006, 48(12): 1401-1408.
[23] Y. Tian, D. Zhang, H. Chen, Modeling of precision grinding process based on micro-positioning table and error compensation technology, Chinese Journal of Mechanical Engineering, 2005, 41(4): 168-173.
[24] D. Zhang, Y. Tian, B. Yan. Application of hybrid fuzzy PID control to auxiliary workpiece table, Materials Science Forum, 2004, 471-472:264-268.
[25] D. Zhang, Y. Tian, Y. Gao. Development of a 3-DOF micro-positioning workpiece table, Chinese Journal of Mechanical Engineering, 2004, 17(1): 46-50.
[26] Y. Gao, D. Zhang, Detachment modeling of a novel workpiece micro-positioning table under preloaded hertz contact, Precision Engineering, Journal of the international Societies for Precision Engineering and Nano-technology, 2002, 26(1):83-92.
[27] D Zhang, Z. Yang, T. Huang, Research on stability and axes track of high-speed gas painting automizor, Chinese Journal of Mechanical Engineering, 2002, 38(4):103-107.
[28] B. Yan, D. Zhang, Dynamic modeling of ball end milling, Chinese Journal of Mechanical Engineering, 2002, 38(5):22-26.
[29] Y. Gao, D. Zhang, Dynamic modeling of a novel workpiece table for active surface grinding control, International Journal of Machine tools & Manufacturing, 2001, 41(4):609-624.
[30] D. Zhang, G. Wang, T. Huang, Dynamic formulation of RV reducer and analysis of structural parameters, Chinese Journal of Mechanical Engineering, 2001, 37(1): 69-74.

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