Selected Publications
1. Wenguang Zhang, Weimin Liu, Laigui Yu. Friction and Wear Behaviors of (Ca, Mg)-sialon/SAE 52100 Steel Pair under the Lubrication of Various Polyols as Water-based Lubricating Additives, Tribology International, 33, 769-775, 2000. (IF:1.936)
2. Wenguang Zhang, Weimin Liu. Characterization and Tribological Investigation of Al2O3 and Modified Al2O3 Films. Material Research Bulletin, 36(4), 1903-1914, 2001.(IF:2.368)
3. Wenguang Zhang, Weimin, Liu, laigui Yu and C. Kajdas. Tribological behaviors of Sialon/ Cast Iron and Sialon/(Ca, Mg)-Sialon under lubrication. Tribologia, 6, 1037-1052, 2001.
4. Wenguang Zhang, Weimin Liu, Chengtao Wang. Characterization and Tribological Investigation of SiO2 and La2O3 Sol-gel Films. Applied Surface Science, 185(1-2), 34-43, 2001.(IF:2.711)
5. Wenguang Zhang, Weimin Liu et al. Characterization and Tribological Investigation of Sol-gel TiO2 and Doped TiO2 Thin Films. Journal of the American Ceramic Society, 85 (7): 1770-1776, 2002.(IF:2.61)
6. Wenguang Zhang, Weimin Liu, Chengtao Wang. Tribological Investigaions of Sol-gel Ceramic Films. Science in China B, 45(1), 84-90, 2002. (IF:1.2)
7. Wenguang Zhang, Weimin Liu et al. Characterization and Tribological Investigation of Sol-gel Al2O3 and doped Al2O3 Films, Journal of the European Ceramic Society, 22: 2869-2876, 2002.(IF:2.947)
8. Wenguang Zhang, Weimin Liu, Chengtao Wang. Tribological behavior of sol-gel TiO2 films on glass, Wear, 253: 377-384, 2002.(IF:1.913)
9. Wenguang Zhang, Weimin Liu, Chengtao Wang. Effects of Solvents on the Tribological Behavior of Sol-gel Al2O3 Films, Ceramics International, 29 (4): 427-434, 2003.(IF:2.605)
10. Wenguang Zhang, Shuang Chen, Weimin Liu, Laigui Yu. Friction and Wear Beghavior of Sialon/(Ca, Mg)-Silaon under the Lubrication of Coated PbS Nanoparticles as Oil Additive. Lubrication Science, 16 (1): 47-56, 2003.(IF:1.031)
11. Su Bing, Zhang Wenguang, Yu Xudong, Wang Chengtao Surface and interface analysis of HAP/TiO2 composite films on Ti6Al4V. Transactions of Nonferrous Metals Society of China, 2004, 14 (Special 2): 193-198. (IF:1.178)
12. Wenguang Zhang, Weimin Liu, Lubrication Mechanism of Micro/Nano-particles on Sialon. Journal of Wuhan University of Technology-Materials science edition, 2004, 19 Suppl: 5-7. (IF:0.4)
13. Wenguang Zhang, Chengtao Wang, Weimin Liu, Characterization and tribological investigation of sol–gel ceramic films on Ti–6Al–4V, Wear, 2006, 260 (4-5): 379-386. (IF:1.913)
14. Gang Wu, Chengtao Wang, Wenguang Zhang, The Factors of Speeds and Loads on the Tribological Properties of PVA-H/HA Composites, Journal of Applied Polymer Science, 2007, 106: 3908–3914. (IF:1.768)
15. Wu Gang, Zhang Wenguang, Wang Chengtao, Tribological properties of PVA-H composites reinforced by nano-HA particles. Journal of Wuhan University of Technology-Materials Science Edition, 2007, 22(3): 490-493. (IF:0.4)
16. Gang Wu, Bing Su, Wenguang Zhang, Chengtao Wang, In vitro behaviors of hydroxyapatite reinforced polyvinyl alcohol hydrogel composite, Materials Chemistry and Physics, 2008: 107: 364–369. (IF:2.259)
17. Gang Wu, Chunhua Zhao, Chengtao Wang, Wenguang Zhang, The Effect of Prepared Methods on Tribological Properties of PVA-H/HA Composites, Iranian Polymer Journal, 2008, 17 (11): 811-819. (IF:1.806)
18. Wu Gang, Zhang Wenguang, Wang Chengtao, Tribological properties of polyvinyl alcohol hydrogel reinforced with nanometer hydroxy apatite. Journal of Wuhan University of Technology, Materials Science Edition, 2008, 23(1): 46-49. (IF:0.4)
19. Xiang Li, Chengtao Wang, Wenguang Zhang, Yuanchao Li. Fabrication and characterization of porous Ti6Al4V parts for biomedical applications using electron beam melting process, Materials letters, 2009, 63: 403–405.(IF:2.489)
20. Xiang Li, Chengtao Wang, Wenguang Zhang, Yuanchao Li. Properties of porous Ti-6Al-4V implant with low stiffness for biomedical application. Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine, 2009, 223(2): 173-178.(IF:1.329)
21. Xiang Li, Chengtao Wang, Wenguang Zhang and Yuanchao Li, Fabrication and compressive properties of Ti6Al4V implant with honeycomb-like structure for biomedical applications, Rapid Prototyping Journal, 2010, 16(1): 44–49 (IF:2.031)
22. Wenguang Zhang, Weimin Liu, Ying Liu, Chengtao Wang, Tribological behaviors of single and dual sol-gel ceramic films on Ti-6Al-4V, Ceramics International, 2009, 35:1513–1520. (IF:2.605)
23. Wenguang Zhang, Chengtao Wang, Weimin Liu, Tribological behaviors of Ti-6Al-4V modified by chemical methods, Tribology International, 2010, 43: 228–234. (IF:1.936)
24. Wenguang Zhang, Dongdong Wu, Zhengwei Li and Yun Luo, Electrochemically synthesized PANI-MnO2 coatings and their effect on interface properties of neural microelectrode, International Journal of Applied Electromagnetics and Mechanics, 2014, 45: 155–162. (IF:0.815)
25. Wenguang Zhang, Zhengwei Li, Merceron Gilles, Dongdong Wu, Mechanical simulation of neural electrode-brain tissue interface under different micromotion conditions, Journal of Medical and Biological Engineering (JMBE),2014, 34(4): 386-392. (IF:0.971)
26. Wenguang Zhang, Yakun Ma, Zhengwei Li, Numerical simulation of neural probe’s insertion process into brain tissue, International Journal of Applied Electromagnetics and Mechanics. 2016,52:1061–1067. (IF:0.815)
27. Wenguang Zhang, Yakun Ma, Zhengwei Li, Numerical simulation of neural probe geometry parameters underbrain micromotion, International Journal of Applied Electromagnetics and Mechanics. 2016,52:471–477. (IF:0.815)
28. Wenguang Zhang, Yakun Ma, Zhengwei Li, Experimental evaluation of neural probe's insertion induced injury based on Digital Image Correlation method. Medical Physics, 2016, 43(1) 505-512. (IF :2.635)
29.Peiyuan Ni,Wenguang Zhang, Weibang Bai,Minjie Lin,Qixin Cao,A New Approach Based on Two-stream CNNs for Novel Objects Grasping in Clutter,Journal of Intelligent & Robotic Systems, 2018,Feb.https://doi.org/10.1007/s10846-018-0788-6. (IF:1.583)
30. Wenguang Zhang, Jiaqi Tang,Yakun Ma, Zhengwei Li,A novel neural electrode with micro-motion-attenuation capability based on compliant mechanisms-physical design concepts and evaluations. Medical & Biological Engineering & Computing, 2018,56:1911-1923. (IF:1.971)