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 |
