Ju Bingfeng
Professor Phone: +86 571 8795 1730
Fax: +86 571 8795 1730
Email: mbfju@zju.edu.cn
Office: No. 506, The Ninth Teaching Building ZhejiangUniversity, Yuquan Campus 38 Zheda Road Hangzhou, China 310027 | Other Appointments Deputy Director, The State Key Lab of Fluid Power Transmission and Control | Professional Activities Member, Chinese Mechanical Engineering Society Member, China Instrument and Control Society | Education Ph.D. – ZhejiangUniversity, Mechanical Engineering, 1999 M. S. – HarbinInstitute of Technology, Mechanical Engineering, 1996, B.S. – HarbinEngineeringUniversity, Mechanical Engineering, 1994 | Working Experience 2009- Deputy Director, The State Key Lab of Fluid Power Transmission and Control 2007- Professor, Department of Mechanical Engineering, ZhejiangUniversity 2005-2007, Assistant professor, Department of Nanomechanics, Tohoku University, Japan 2003-2005, JSPS Fellow, Department of Nanomechanics, Tohoku University, Japan 2002-2003, Research Scientist, DSO National laboratories, Singapore 2000-2002, Research Fellow, Nanyang Technological University, Singapore | Awards and Honors Alexander von Humboldt Foundation, Germany, 2003 Japan Society for the Promotion of Science Scholarship, Japan, 2003 ROCKWELL Automation Award, 1999 | Research Interests Precision Mechatronics and Measurement Systems Ultra-precision Metrology Development and Applications of MEMS&NEMS | Current Projects 1. Measurement of nanometer 3D edge profile of diamond micro cutting tools (863 Project, No. 2009AA04Z168) 2. Nano-metrology of high aspect ratio microstructures (HARMS) by new STM system (NSFC Project, 90923031) 3. Sub-micrometer local conductivities and its applications in DNT for nano-structures (NSFC Project, 50705086) | Publication List 1. Ju B –F et al. Systematic study of electropolishing technique for improving the quality and production reproducibility of tungsten STM probe. SENSORS & ACTUATORS-A 155: 136-144, 2009 (SCI&EI) 2. Ju B –F et al. A methodology for quantitative evaluation of local electrical conductivity: from micron to submicron. MICROSYSTEM TECHNOLOGIES 15: 1827-1834, 2009 (SCI&EI) 3. Ju B –F et al. Quantitative measurement of submicrometre electrical conductivity. JOURNAL OF PHYSICS D-APPLIED PHYSICS 40: 7467-7470, 2007 (SCI&EI) 4. Ju B –F et al. A novel cylindrical punch method to characterize interfacial adhesion and residual stress of a thin polymer film. ENGINEERING FRACTURE MECHANICS 74 : 1101-06, 2007 (SCI&EI) 5. Ju B –F. In situ elasticity and adhesion measurement of biomembrane by a video enhanced depth-sensing indentation technique. MATERIALS SCIENCE & ENGINEERING-C 27: 135-141, 2007 (SCI&EI) 6. Ju B –F et al. Video enhanced depth-sensing indentation technique for characterizing mechanical behaviour of biomaterials. MEASUREMENT SCIENCE & TECHNOLOGY 17: 1776-1784, 2006 (SCI&EI) 7. Ju B –F et al. Fabrication of a microscopic four-point probe and its application to local conductivity measurement. JOURNAL OF MICROMECHANICS AND MICROENGINEERING 15: 2277-2281, 2005 (SCI& EI) 8. Ju Y, Ju B –F et al. Microscopic four-point atomic force microscope probe technique for local electrical conductivity measurement. REVIEW OF SCIENTIFIC INSTRUMENTS 76: No. 086101, 2005 (SCI&EI) 9. Ju B –F et al. A systematic method for characterizing the elastic properties and adhesion of a thin polymer membrane. INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES 47: 319-332, 2005 (SCI&EI) 10. Ju B –F. Indentation of a square elastomeric thin film by a flat-ended cylindrical punch in the presence of long-range intersurface forces. JOURNAL OF APPLIED PHYSICS 96: 6159-63, 2004 (SCI&EI) 11. Ju B –F et al. A novel technique for characterizing elastic properties of thin biological membrane. MECHANICS OF MATERIALS 34 : 749-754, 2002 (SCI&EI) 12. Ju B -F, Liu K –K. Characterizing viscoelastic properties of thin elastomeric membrane MECHANICS OF MATERIALS 34: 485-491, 2002 (SCI&EI) | Conference List 1. Long range high aspect ratio scanning tunneling microscopy. ISMQC2010, 5-10 September 2010, Osaka, Japan 2. AFM with the slope compensation technique for high-speed precision measurement of micro-structured surfaces. ISMTII-2007, 23-27 September 2007, Sendai, Japan 3. Compact AFM system for rapid and large area surface topography measurement. International Symposium on Precision Mechanical Measurements, 5-9 August 2006, Urumqi, China 4. Development of a new microscopic four-point AFM probe for the measurement of local electrical conductivity. IPACK2005, 17-22 July 2005, San Francisco, California, USA 5. Novel AFM probe for local conductivity measurement. 9th International Conference on Advanced Materials, 3-8 July 2005, Singapore 6. Micromanipulation evaluation of the damage strength of a single biomimetic microcapsule. Asian-Pacific Conference on Fracture and Strength'04, 6-8 October 2004, Jeju Island, Korea 7. Novel technique for mechanical characterization of thin polymeric tissue membrane. 7th Australian and New Zealand Intelligent Information Systems Conference, 18-21 November 2001, Perth, Australia 8. A new instrument for measuring mechanical compliance of micro-system. 2nd International Conference on Experimental mechanics, 29 November -1 December 2000, Singapore | Patent List 1. Four-point AFM probe, Japan Patent (JP2007010404-A) 2. Spiral scanning system for high-speed and large area STM, China Patent (ZL 200810062982.1) 3. The control system for fabricating STM probes, China Patent (ZL 200810062984.0) |
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