Research

Kun WangMore

  • Title:Associate professor
  • Tel:kunwang@tongji.edu.cn
  • Office:Room 122, Curtain Brothel, Shanghai West Campus
  • Information of Tutors:Doctoral supervisor

Wang Kun, Associate professor and doctoral supervisor of the School of Mechanical and Energy Engineering, Tongji University, Chief scientist of the National Key Research and Development Program, mainly engaged in the research of precision machining of X-ray optical components. He presided over one national key R&D program project and two National Natural Science Foundation research projects, and won the second prize of Natural Science of the Ministry of Education in 2008 and the first Prize of Shanghai Science and Technology Progress in 2013. As the first/corresponding author, he published several articles such as Mater.Manuf.Process., in.J. Adv.Manuf.Tech.

  • Personal Experience
  • Research Areas
  • Teach Courses
  • Research Project
  • Academic Achievements
  • Honors and Awards

Work experience:


December 2012 - Now, Associate Professor, School of Mechanical and Energy Engineering, Tongji University


March 2008 - November 2012, Lecturer, School of Mechanical and Energy Engineering, Tongji University


From December 2007 to February 2008, Assistant Professor, School of Mechanical and Energy Engineering, Tongji University


Educational experience:


April 2004 - November 2007 Doctor of Mechanical Engineering, Nanjing University of Aeronautics and Astronautics


Sep. 2001 - Mar. 2004 Master Degree in Mechanical Manufacturing and Automation, Nanjing University of Aeronautics and Astronautics


September 1997 - June 2001 Bachelor of Mechanical Engineering, Nanjing University of Aeronautics and Astronautics


He is mainly engaged in the research of precision machining of X-ray optical components.

Undergraduate courses: Perception and Decision making in manufacturing systems, CPS and iot practices


Postgraduate course: Signal analysis and processing in Mechanical Engineering


Start time

End time

Project name

Project source

Major contribution

2021.12

2024.11

Development and Application of X-ray Ellipsoidal Focusing Mirror (Project)

National key research and development plan

Project leader

2019.01

2022.12

Femtosecond laser single scan assisted thermal stress efficient precision cutting of X-ray telescope ultra-thin lens research

National Natural Science Foundation project

Project leader

2012.01

2014.12

Research on manufacturing technology of bionic wet absorbent foot pad with desorption mechanism

National Natural Science Foundation youth project

Project leader

2021.07

2024.06

Study on free microbeads assisted chemical-mechanical polishing of channel-cut crystal slit with synchrotron radiation source

Shanghai Natural Science Foundation

Project leader

2010.06

2021.12

Basic research on micro-electrochemical machining of microscale curved metal structures

Shanghai "Morning light" talent plan project

Project leader

Articles:

1. Wang Kun*, Li Wenhao, Wang Zhanshan. Thermal stress cleaving of glass-based X-ray telescope lenses by heated wire to eliminate microdefects. Optik, 2021, 226: 165996.

2. Wang Kun*, Li Wenhao, Wang Zhanshan. Hot-wire thermal stress cleaving process of glass with micro crack-free edges. Materials and Manufacturing Processes, 2020, 35(5): 491-497.

3. Wang Kun*, Li Wenhao, Qu Qintao, Wang Zhanshan. Chemical mechanical polishing of the narrow channel of a channel-cut crystal. International Journal of Advanced Manufacturing Technology, 2020, 108: 1691-1700.

4. Wang Kun*, Wang yubiao, Shen Qi. Electrochemical machining of turbulated cooling channel using gelatinous electrolyte. International Journal of Electrochemical science, 2020, 15(6): 5430-5439.

5. Wang Kun, Shen Qi, He Bin*. Localized electrochemical deburring of cross hole using gelatinous electrolyte. Materials and Manufacturing Processes, 2016, 31(13): 1749-1754.

6. Wang Kun*, Shen Qi, Wang Cheng, Liu Chunjie. Influence of pneumatic pressure on delamination factor of drilling medium density fiberboard. Wood Research, 2015, 60(3): 429-439.

7. Wang K., Kong L.M., He B.*, M. Gao. Investigation on biomimetic wet adhesive pads with variable cross-section surface microstructures. Materials Research Innovations, 2015, 19: 378-381.

8. Wang Kun, He Bin*, Shen Runjie. Influence of surface roughness on wet adhesion of biomimetic adhesive pads with planar microstructures. Micro & Nano Letters, 2012, 7(12): 1274-1277.

9. Wang Kun, He Bin*, Li Minghe, Ji Yun. Fabrication of biomimetic wet adhesive pads with surface microstructures by combining electroforming with soft lithography. Surface Engineering and Applied Electrochemistry, 2012, 48(2): 99-104.

10. Wang K*. Electrochemical micromachining using vibratile tungsten wire for high-aspect-ratio microstructures. Surface Engineering and Applied Electrochemistry, 2010, 46(5): 395-399.


Patents:

Grant Date

Patent name and Patent Number

Rank

2019.10

The invention relates to a processing device for polishing a quartz glass cylinder

ZL201710470000.1

1

2019.05

The invention relates to a preparation method of a quartz glass cylindrical polishing disc based on a gel substrate

ZL201710470043.X

1

2019.01

The invention relates to a cutting and processing method of a glass lens thermal resistance wire without micro-cracks

ZL201610245434.7

1

2017.12

The utility model relates to an exterior wall cleaning and maintenance leg mechanism of a multi-legged robot

ZL 201610211302.2

1

2017.09

The invention relates to a wall climbing robot sucker device adapted to a complex surface

ZL201511000946.9

1

2017.02

The invention relates to a method for preparing a cooling tube of a ribbed internal cooling structure based on gel electrochemical machining

ZL201510025314.1

1

2017.01

The invention relates to a method for microelectromachining metal surface with a gel medium to imitate shark-skin structure

ZL201410686399.3

1

2016.08

A method for repairing mold surface defects by local micro-plating with gel medium

ZL201410377264.9

1

2016.04

The invention relates to an electrochemical deburring and surface treatment method for a gel state brush

ZL201310650476.5

1

2015.01

Biomimetic wet imbibition wall-climbing robot foot pad with hemispherical microstructure

ZL201210479175.6

1

None