張璧
南方科技大學講席教授
張璧博士,1982年獲鎮江農機學院(江蘇大學)學士學位,同時考取浙江大學機械製造專業出國研究生。受教育部派遣赴日留學,於1988年獲東京工業大學機械工程博士學位后,分別在上海交通大學和美國俄克拉荷馬 (Oklahoma) 州立大學做博士后研究。1992年起受聘為美國康涅狄格 (Connecticut) 大學助理教授、副教授與教授,2001-2009年兼任教育部湖南大學“長江學者特聘教授”、科技部“國家高效磨削工程技術研究中心”總工程師。2009-2013年擔任康涅狄格大學機械工程系本科教學主任,2011-2013年任康涅狄格大學管理與工程製造學科主任。“遼寧重大裝備製造協同創新中心”精密與特種加工團隊負責人。從事精密製造研究30多年,研究方向為增減材複合製造與精密加工。發表學術論文200餘篇。是1994年康涅狄格大學唯一推薦的美國總統獎候選人。為國際生產工程院(The International Academy for Production Engineering – CIRP)和美國機械工程師學會(The American Society of Mechanical Engineers – ASME)會士(Fellow)。
張璧博士1957年出生於江蘇省揚州市,現為南方科技大學工學院副院長,機械與能源工程系講席教授,美國康涅狄格大學終身教授。1982年獲鎮江農機學院(江蘇大學)學士學位,同時考取浙江大學機械製造專業出國研究生。受教育部派遣赴日留學,於1988年獲東京工業大學機械工程博士學位后,分別在上海交通大學和美國俄克拉荷馬 (Oklahoma) 州立大學做博士后研究。1992年起受聘為美國康涅狄格(Connecticut) 大學助理教授、副教授與教授,2001-2009年兼任教育部湖南大學“長江學者特聘教授”、科技部“國家高效磨削工程技術研究中心”總工程師。2009-2013年擔任康涅狄格大學機械工程系本科教學主任,2011-2013年任康涅狄格大學管理與工程製造學科主任。“遼寧重大裝備製造協同創新中心”精密與特種加工團隊負責人。
從事精密製造研究30多年,研究方向為增減材複合製造與精密加工。
發表學術論文200餘篇。是1994年康涅狄格大學唯一推薦的美國總統獎候選人。為國際生產工程院(The International Academy for Production Engineering – CIRP)和美國機械工程師學會(The American Society of Mechanical Engineers – ASME)會士(Fellow)。
講席教授 2017/06-至今,南方科技大學機械與能源工程系
副院長 2017/06-至今,南方科技大學工學院
終身教授 2004/08-2013/12,美國康涅狄格大學機械工程系
學科主任 2011/09-2013/04,美國康涅狄格大學製造工程與管理學科
教 授 2001/10-2009/09,教育部湖南大學“特聘教授”
總工程師 2001/10-2009/09,科技部國家高效磨削工程研究中心
副教授 1997/08-2004/07,康涅狄格大學機械工程系
部門主任 1993/08-1998/07,康涅狄格大學精密製造研究所
助理教授 1992/08-1997/08,康涅狄格大學機械工程系
工程師 1988/04-1988/12,日本電器公司材料設計與開發研究中心
博士后 1990/06-1992/08,美國俄克拉荷馬州立大學機械工程系
博士后 1989/01-1990/05,上海交通大學機械工程系
博 士 1985/04-1988/03,日本東京工業大學機械工程系
碩 士 1982/10-1985/03,日本東京工業大學機械工程系
培訓班 1982/02-1982-09,大連外國語學院日語培訓班
學 士 1978/02-1982/01,鎮江農機學院(江蘇大學)農業機械工程系
1. 國際生產工程學會高級會員(Fellow, The International Academy for Production Engineering Fellow)
2. 美國機械工程師學會高級會員(Fellow, The American Society of Mechanical Engineers)
3. 北美製造工程師學會高級會員(Senior Member, The Society of Manufacturing Engineers)
4. 精密工程學會會員(Member, The American Society for Precision Engineering)
5. 日本精密工學會會員(Member, The Japan Society for Precision Engineering)
5. 納米技術與精密工程雜誌編委 (Editorial Board Member)
6. 中國機械工程學報英文版編委 (Editorial Board Member)
7. 《金剛石與磨料磨具工程》編委 (Editorial Board Member)
研究領域(研究課題)
1. “Design of Additive/Subtractive Manufacturing Machine,” Shandong Province, 10/2014-9/2017.
2. “Design of Automated Fixture to Assemble Single Fractured Outer Race Spherical Plain Bearings;” RBC Bearings, Inc., 9/2009-5/2013.
3. "Study on Microedged Whisker Wheel and Its Grinding Mechanisms," the Chinese National Natural Science Foundation, 8/2008-7/2010.
4. "Data Base Development and Research for Intelligent Grinding Optimization of Cam Shafts," the Chinese Ministry of Science and Technology, 10/2007-9/2009.
5. “Design of an Artificially Ordered Super-hard Whisker Cutter and Machining Mechanisms with Such a Cutter”, the Chinese National Natural Science Foundation, 1/08-12/10.
6. “Software-Supported High Efficiency Grinding,” Connecticut Center for Advanced Technology, 1/08-12/09.
7. “Study on White-layer Formation and Suppression Mechanisms for Grinding of Hard Metals”, the Chinese National Natural Science Foundation, 10/07-12/09.
8. “Design of an Intelligent Database and Its Application to Camshaft Grinding”, the Chinese Ministry of Science and Technology,10/07-9/09.
9. “Industrial Material Spreader Cut-Off Mechanism,” Gerber Technology, 9/07-5/08.
10. “Alternative Design of External Manifold Retention System for Fuel Cell Stacks,” UTC Power, 9/07-5/08.
11. “External Lubrication in a Tablet Press,” Pfizer Global Research & Development, 9/06-5/08.
12. “Design and Prototyping of an Ultraprecision Grinding Machine for Micro-Aspheric Lenses”, the Chinese Ministry of Science and Technology,1/03-12/05.
13. “Basic Research on Material Removal Mechanisms in Grinding of Nanostructured Ceramics”, the Chinese National Natural Science Foundation, 1/03-10/05.
14. “Study on Superhigh Speed CNC Cylindrical Grinding”, the Chinese Ministry of Education,1/03-12/05.
15. “Design and Prototyping of Superhigh Speed CNC Cylindrical Grinder”, Hunan Science & Tech Fund for Large Projects, China,7/02-6/05.
16. “Analysis and Modeling in Precision Grinding of Difficult-to-Machine Materials (Including Nanostructured Materials)”, the Chinese Ministry of Science and Technology, 10/01-9/03.
17. “Innovative Design of Hydrostatic Pressure Assisted Micromachining Apparatus for Brittle Materials” University of Connecticut Research Foundation, 1/04 – 6/05.
18. “Hole Cutting on Leather Materials” Gerber Technology, 9/04 – 5/05.
19. “DNA-Assisted Photonics Crystal Fabrication” AFOSR, 9/01 – 8/04.
20. “A Unique Design of Endplates and Clamping Mechanisms for Miniature/Micro/Portable DMFC Stacks” US Army, 1/03 – 1/04.
21. “Design of Automatic Tool Changer” Gerber Technology, 9/02 – 5/03.
22. “Innovative Manufacturing of Bipolar Plates for Portable Fuel Cells” US Army, 6/02 – 6/03.
23. “Study on Grindability of Thermal-Spray Coated Nanostructured Materials” Office of Naval Research, 11/00 – 12/02.
24. “Single-Pass Growth of Full Color OLED Displays Using a Scanning Localized Evaporation Methodology (SLEM)” subcontract to NSF SBIR of Optoelectronics Systems Consulting, Inc., 7/01 – 12/01.
25. “Improvement of the Metal Cutting Principles Lab,” UConn School of Engineering, 1/01 – 12/01.
26. “Hybrid Electromagnetic and Permanent Magnet Frictionless Clutch/Brake” The Carlyle & Johnson Machine Company, 9/01 – 5/02.
27. “Microgrinding of Nanostructured Materials” Connecticut Yankee Ingenuity Initiatives + Inframat Corporation, 1/99 – 6/01.
28. “Thermoelectric Cooler Design,” Hamilton-Sundstrand, 9/00-5/01.
29. “Optimization of Screw-Vibration Assisted Tapping for High Efficiency” UConn Research Foundation, 6/99 – 5/00.
30. “A Lithography Stage of High Performance” National Science Foundation + Dover Instrument, 3/96 – 2/99.
31. “Damage Control in Grinding of Ceramics” National Science Foundation, 6/95 – 12/98.
32. “Automated Feed and Ejection for Electro-discharge Machining,” Pratt & Whitney, 9/99-5/00.
33. “Design and Analysis of an Improved Threading System” Goss & DeLeeuw Machine Co. 9/95 – 8/98.
34. “The Effect of Machine Stiffness on Grinding of Silicon Nitride” U.S. Department of Energy, 1/96 – 3/97.
35. “Design of a Vacuum-Hydrostatic Shoe for Centerless Grinding” Connecticut Yankee Ingenuity Initiatives + Torrington Company, 8/95 – 7/97.
36. “On-line Damage Inspection for Grinding of Ceramics” University of Connecticut Research Foundation, 1/97 – 12/97.
37. “Redesign of Aluminum ‘Ladder’ Type Cable Tray System” The Wiremold Company, 9/97 – 5/99.
38. “Development of Diamond Growth Techniques Using Oxyacetylene Combustion Flame Method” National Science Foundation (Research Initiation Award), 8/93 – 12/96.
39. “Design of Linear Piezomotor for Grinding Wheel Truing/Dressing Applications” Connecticut Innovations, Inc., 7/93 – 6/95.
40. “Design of an Aerostatic Bearing of High Stiffness” Connecticut Innovations, Inc., 7/94 – 6/96.
41. “Conceptual Design of Vacuum-Hydrostatic Shoe for Centerless Grinding” DARPA/DLA, 1/95 – 12/95.
42. “Development of Diamond Growth Techniques Using Oxyacetylene Combustion Flame Method” University of Connecticut Research Foundation, 1/93 – 12/93.
43. “A New Approach to Vibration Control of Structures” Booth Research Center, 1/95 – 12/95.
44. “Ceramic Bearing Technology Program” DARPA, 7/91 – 6/94.
45. “Improvement of the Mechanical Engineering Measurement Lab,” UConn School of Engineering, 5/00 – 6/01
1. Zhang, Z.Y., Wang, B., Kang, R.K., Zhang, B., Guo, D.M., “Changes in Surface Layer of Silicon Wafers from Diamond Scratching,” Annals of the CIRP, 64 (2015) 349-352.
2. Niu, F.Y., Wu, D.J., Ma, G.Y., Wang, J.T., Guo, M.H., Bi Zhang, “Nanosized Microstructure of AlO-ZrO(YO) Eutectics Fabricated by Laser Engineered Net Shaping,” Scripta Materialia, Vol. 95, (2015) pp. 39-41.
3. Zhang, Z.Y., Yang, S., Guo, D.M., Yuan, B.Y., Guo, X.G., Zhang, B., Huo, Yanxia, “Deformation twinning evolution from a single crystal in a face-centered-cubic ternary alloy”, Nature/Scientific Reports, 5, 11290, (2015) 1-9.
4. Gao, S., Dong, Z.G., Kang, R.K., Bi Zhang, Guo, D.M., “Warping of Silicon Wafers Subjected to Back-Grinding Process,” Precision Engineering, Vol. 40, (2015) pp. 87-93.
5. Gao, S., Kang, R.K., Dong, Z.G., Guo, D.M., Bi Zhang, “Grinding Performance of a Novel Soft Abrasive Grinding Wheel for Silicon Wafers,” ASPE Journal of Precision Engineering, Precision Engineering, Vol. 40, (2015) pp. 87-93.
6. Zhang, Z.Y., Duan, N.D., Wang, B., Huo, Y.X., Bi Zhang, Zhang, X.Z., Ye, F., “Deformation and Crack Mechanisms of Nanotwinned Cadmium Telluride under Cyclic Nanoindentations,” Scripta Materialia, Vol. 93, (2014) 12-15.
7. Niu, F.Y., Wu, D.J., Ma, G.Y., Zhou, S.Y., Bi Zhang, “Effect of Second-Phase Doping on Laser Deposited AlO Ceramics,” The Rapid Prototyping Journal, Vol. 21, (2014) pp. 221-227.
8. Gao, S.*, Kang, R.K., Dong, Z.G., Zhang, B. Edge Chipping of Silicon Wafers in Diamond Grinding,” International Journal of Machine Tool & Manufacture, Vol. 64, pp. 31-37, 2013.
9. Hu, Z.W., Sun, W.*, Zhang, B. Characterization of Aortic Tissue Cutting Process: Experimental Investigation Using Porcine Ascending Aorta. Journal of the Mechanical Behavior of Biomedical Materials, Vol. 18, pp. 81-89, 2013.
10. Hu, Z.W., Zhang, B.*, and Sun, W. Cutting Characteristics of Biological Soft Tissues. Annals of the CIRP, Vol. 61, pp. 135-138, 2012.
11. Zhang, G.F.*, Zhang, B., Deng, Z.H., Hu, Z.W., Tan, Y.Q. Experimental Investigation of a PDC Microedge Cutter for Precision Machining of n-WC/12 Co. China Mechanical Engineering, Vol. 22(8), pp. 961-966, 2011.
12. Hu, Z.W., Zhang, B.* Modeling of Soft Tissue Cutting Process. China Mechanical Engineering, Vol. 22(17), pp. 2043-2060, 2011.
13. Zhang, G.F.*, Tan Y.Q., Zhang, B., Deng, Z.H. Machining Mechanism of Diamond Fibers Cutter. Key Engineering Materials, Vol. 487, pp. 352-356, 2011.
14. Zhang, B.*, Cheng, X.M. Wear Performance of Ground Nanostructured Ceramic Coatings. Journal of Nanotechnology and Precision Engineering, Vol. 8, pp. 475-483, 2010.
15. Zhang, G.F., Zhang, B.*, Deng, Z.H., Tan, Y.Q. An Experimental Study on a Novel Diamond Whisker Wheel. Annals of the CIRP, Vol. 59, pp. 355-360, 2010.
16. Chen, G.Y.*, Mei, L.F., Zhang, B., Yu, C.R., Shun, K.J. Experiment and Numerical Simulation Study on Laser Truing and Dressing of Bronze-Bonded Diamond Wheel. Optics and Lasers in Engineering, Vol. 48, pp. 295–304, 2010.
17. Mei, L.F., Chen, G.Y.*, Zhang, B., Chen, G.G., Huang, K. Measurement of YAG Laser Absorptance by Artificial Diamond and Cubic Boron Nitride. Optics and Lasers Technology, Vol. 47, pp. 770–777, 2009.
18. Ren, Y.H, Zhang, B., Zhou, Z.X. Specific Energy in Grinding of Tungsten Carbides of Various Grain Sizes. Annals of the CIRP, Vol. 58, pp. 299-302, 2009.
19. Zhang, G.F.*, Zhang, B., Deng, Z.H. Recent Advances and Future Perspectives in Grinding Wheel Structures. International Journal of Abrasive Technology, Vol. 2(2), pp. 113-129, 2009.
20. Zhang, G.F.*, Tan, Y.Q., Zhang, B., Deng, Z.H. Effect of SiC Particles on the Machining of Aluminum/SiC Composite. Materials Science Forum, Vol. 626-627, pp. 219-224, 2009.
21. Zhang, G.F.*, Zhang, B., Deng, Z.H., Tan, Y.Q. Grinding of Nanostructured WC Coatings with Single Fibrous-Abrasive Wheel. Key Engineering Materials, Vol. 416, pp. 482-486, 2009.
22. Ren, Y.H.*, Zhang, B., Zhou, Z.X. Study on Surface Integrity of Nanostructured WC-Co Subjected to Precision Grinding,” China Mechanical Engineering, Vol. 20(8), pp. 896-901, 2009.
23. Zhang, G.F.*, Zhang, B., Deng, Z.H. Mechanisms of Al/SiC Composite Machining with Diamond Whiskers. Key Engineering Materials, Vol. 404, pp. 165-175, 2009.
1.Best Paper Award, 2014 Solid Freeform Fabrication Symposium – An Additive Manufacturing Conference, Austin, Texas August 4-6, 2014.
2.Fellow, ASME (American Society of Mechanical Engineers), since 2010.
3.Fellow, CIRP (The International Academy for Production Engineering), since 2010.
4.Outstanding Contribution Award, The 8 International Conference on Frontiers of Design and Manufacturing, 2008.
5.Marquis Who's Who in American Education, 2006.
6.Mechanical Engineering Outstanding Faculty Award, UCONN 2003.
7.Marquis Who’s who in the World, 17th Edition, 2000.
8.Outstanding Reviewer for ASME J. Manuf. Sci. & Eng.,1999.
9.Marquis Who’s who in Science and Engineering, 1999.
1. “一種增減材複合製造機床,”中國專利號 2014 1 0479453.7,2014年9月。
2. “一種激光成形過程中快速確定激光功率的方法,”中國專利號 ZL 2014 1 0240479.6,2016年月6日。
3. “Vacuum-Hydrostatic Shoe for Centerless Grinding,” U.S. patent # 6,287,183, September 11, 2001.
4. "一種柔性旋轉軸承," 中國專利號 CN100595445C, 2010年12月12日。
5. “一種用於提高軸承壽命的密封裝置及其使用方法,”中國專利號CN102808851A, 2012年12月5日。