Educational Background
2010 – 2015, South China University of Technology, Doctor
2006 – 2010, South China University of Technology, Bachelor
Professional Experience
2015 – Present, Lecturer, School of Mechanical and Aerospace Engineering
Research Interests
Bionic functioning surface
Materials service performance testing technology
Laser manufacturing
Friction & Wear
Research Projects
2019-2021 National Natural Science Foundation of China: Study on the cutting tools with micro-textures on both its rake face and flank face for high speed machining of titanium alloy and the correlative mechanisms(51805206)…
Selected Publications
1. Xin Liu, Yu Liu,et al., Performances of micro-textured WC-10Ni3Al cemented carbides cutting tool in turning of Ti6Al4V. International Journal of Refractory Metals & Hard Materials. November 2019, 104987.
2. Xin Liu, Yu Liu, et al., Optimization of the micro-textures on the cutting tool based on the penetration of the lubricant in the micro-textures. The International Journal of Advanced Manufacturing Technology. October 2019, 104(5-8):3173-3180.
3. Wang D F, Xia C, Du X, Liu X, et al. Synchronized Cu-cantilever structure for kinetic friction characterization[J]. IEEE Sensors Journal, September 2018.
4. Yuan W, Wang D F, Gu Z, Liu X, et al. A Shuttle Roller Coaster Design for Three-Dimensional Imaging with High Spatial Resolution Applicable to Vein Recognition. IEEE Sensors Journal. May 2018.
5. Xin Liu, Liang Liang, et al. Abrasion Wear Behavior of WC-10Ni3Al Cermet with Plate-like Triangular Prismatic WC Grains, Ceramics International. April 2015, 41:5147-5158.
6. Liang Liang, Xin Liu, et al. Wear mechanisms of WC-10Ni3Al carbide tool in dry turning of Ti6Al4V, International Journal of Refractory Metals and Hard Materials. January 2015, 48:272-285.
7. Xin Liu, Liang Liang, et al. Reciprocating Wear Behavior of WC-10Ni3Al Cermet in contact with Ti6Al4V. Wear. December 2014, 321:16-24.
Courses
Fundamentals of manufacturing technology, 66 credit hour, 4.5 credits
Micro/nano tribology, 32 credit hour, 2credits
Advanced manufacturing technology, 28 credit hour, 2 credit
Patents and Applications
1. Piezoelectric driven low temperature in-situ high frequency reciprocating fretting friction and wear test platform, ZL201821361928.2, China
2. Low temperature torsional fretting friction and wear test device, ZL201920001294.8, China
3. Fretting friction and wear test device under prestress, ZL201920001292.9,China