代表性论文专著
国际期刊:
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, 2000, 33: 769-775. (IF:1.936)
2. Wenguang Zhang, Weimin Liu. Characterization and Tribological Investigation of Al2O3 and Modified Al2O3 Films. Material Research Bulletin, 2001, 36(4):1903-1914.(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, 2001, 6: 1037-1052.
4. Wenguang Zhang, Weimin Liu, Chengtao Wang. Characterization and Tribological Investigation of SiO2 and La2O3 Sol-gel Films. Applied Surface Science, 2001, 185(1-2):34-43.(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, 2002, 85 (7): 1770-1776.(IF:2.61)
6. Wenguang Zhang, Weimin Liu, Chengtao Wang. Tribological Investigaions of Sol-gel Ceramic Films. Science in China B, 2002, 45(1), 84-90. (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, 2002, 22: 2869-2876.(IF:2.947)
8. Wenguang Zhang, Weimin Liu, Chengtao Wang. Tribological behavior of sol-gel TiO2 films on glass, Wear, 2002, 253: 377-384.(IF:1.913)
9. Wenguang Zhang, Weimin Liu, Chengtao Wang. Effects of Solvents on the Tribological Behavior of Sol-gel Al2O3 Films, Ceramics International, 2003, 29 (4): 427-434.(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, 2003, 16 (1): 47-56.(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. 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)
30.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, 2019, 94(1): 161-177. (IF:1.583)
31. Wenguang Zhang, Jiaqi Tang and Xuele Yin, A novel neural electrode with micromotion-attenuation capability based on small-deflection theory, International Journal of Applied Electromagnetics and Mechanics, 2019, 59(3):1065–1071. (IF:0.804)
32. Wenguang Zhang, Jiaqi Tang and Zhengewi, Li, Study of the effects of hydrogel coatings on brain tissue injury in simulated neural probe insertion process, International Journal of Applied Electromagnetics and Mechanics, 2019, 59(3):1073–1079. (IF:0.804)
33. Wenguang Zhang , Xuele Yin and Xuhui Zhou, Optimal design and evaluation of a multi-shank structure based neural prob, International Journal of Applied Electromagnetics and Mechanics, , 2020, 64(1-4): 1373-1380.
34. Wenguang Zhang, Xuele Yin, Jie Xie, Yakun Ma and Zhengwei Li, Experimental evaluation of optimal-designed neural electrodes based on simulated implantation system, International Journal of Applied Electromagnetics and Mechanics, 2020, 64(1-4):1401-1409.
35. Wenguang Zhang, Wei Li and Xiaowen Sun, Polyaniline coating electrochemical properties improvement after roughened platinum substrate and its anti-wear performance study, International Journal of Applied Electromagnetics and Mechanics, 2020, 64(1-4): 1477-1483.
36. Wenguang Zhang, Xuhui Zhou, Yuxin He, Liyue Xu, Implanting mechanics of PEG/DEX coated flexible neural probe: impacts of fabricating methods, Biomedical Microdevices, 2021,23: 17.(IF:2.838)
37. Xuhui Zhou, Wenguang Zhang, Jie Xie. Effects of Micro-Milling and Laser Engraving on Processing Quality and Implantation Mechanics of PEG-Dexamethasone Coated Neural Probe, Journal of Shanghai Jiao Tong University (Science), 2021, 26 (1): 1-9.
38. HE yuxin , ZHANG wenguang,XU haotian, XU liyue, The Establishment of a Refined Brain Model for Evaluating the Implantation Behavior of the Neural Electrode and the Research of Its Simulated Behaviors[J]. Journal of Shanghai Jiaotong University, 2023, 28(4): 401-410.
国内核心期刊:
1. 吴刚, 张文光, 王成焘, 纳米HA增强PVA-H复合材料的摩擦学性能研究, 润滑与密封, 2006, 5: 9-11. (EI检索号: 062910014278)
2. 吴刚, 张文光, 王成焘, 聚乙烯醇/羟基磷灰石复合材料的摩擦磨损性能研究, 摩擦学学报, 2007, 27(3):214-218. (EI检索号: 20072810698096)
3. 吴刚, 张文光, 王成焘, 仿生UHMWPE软骨材料的制备和性能研究, 功能材料, 2007, 38(10): 1694-1697. (EI检索号: 20074710936544)
4. 吴刚, 张文光, 王成焘, 仿生多孔超高分子量聚乙烯的摩擦磨损性能研究, 摩擦学学报, 2007, 27(6): 539-543. (EI检索号: 20080311033346)
5. 吴栋栋,张文光,MERCERON Gilles,罗云. 神经电极-脑组织界面微动环境力学特性仿真, 浙江大学学报(工学版), 2013, 47(2): 256-260.(EI)
6. 张文光,吴栋栋,李正伟,罗云. 聚苯胺-碳纳米管涂层的电化学合成及其对神经微电极界面性能的影响, 功能材料,2013,44(12): 1787-1791.(SCI)
7. 张文光,吴栋栋,李正伟,罗云. 聚苯胺-二氧化锰涂层的电化学合成及其对神经微电极界面性能的影响, 上海交通大学学报,2014, 48(2): 199-204.(EI)
8. 王明,马全超, 张文光, 罗云. 压握过程对球囊扩张支架性能的影响. 上海交通大学学报, 2012,46 (4): 646-650.(EI)
9. 马亚坤, 张文光, 李正伟, 基于神经电极形状参数的脑组织微动损伤仿真. 上海交通大学学报, 2015, 49(12): 1882-1887.(EI)
10. 李正伟, 马亚坤, 张文光, 基于柔顺机构的减振神经电极的设计与评估. 上海交通大学学报, 2015, 49(12): 1888-1892.(EI)
11. 孙晓文, 杨 鹏, 张文光, 磺酸掺杂聚苯胺/碳纳米管复合膜电极制备及其应用. 上海交通大学学报, 2016, 50(2): 51-57. (EI)
12. 孙晓文, 张文光, 基体粗糙度对神经电极聚苯胺涂层性能的影响. 浙江大学学报 (工学版), 2016, 50(5):913-919.(EI)
13. 邱创国,张文光,最小系数排序法在汽车认证项目进度管理方面的应用,项目管理技术,2015,9:118-123.
14. 杨琪,张文光,工业设备节能解决方案项目质量管理问题研究,项目管理技术,2016, 0(5):91-94.
15. 高娟,张文光,同系列铸造类零件本地化项目的关键链识别研究,项目管理技术(增刊),2016.
16. 杨鹏,孙晓文,马亚坤,张春新,张文光,基于视频动作捕捉的针灸手法量化研究,医用生物力学,2016,31(2):154-159.
17. 孙志鹏,张文光,汽车白车身冲压模具开发项目成本控制的操作过程及方法,项目管理技术(增刊),2016,121-125.
18. 张捷,张文光,基于层次分析法的项目优先级评价模型研究,项目管理技术,2016,14(8):51-55.
19. 朱佳鹏,张文光,一次性医疗器械研发项目的风险管理,项目管理技术(增刊),2016,82-86.
20. 张春新, 张文光, 马亚坤, 孙晓文,基于希尔伯特-黄变换人步行状态髋关节角度信号的分析方法,医用生物力学,2016, 31(6):513-519.
21. 唐嘉琪, 张文光, 蔡丰隆,等. 基于柔顺机构的减振电极的植入损伤对比分析[J]. 上海交通大学学报, 2018, 52(2):188-193.
22. 唐嘉琪,张文光,尹雪乐,神经电极的水凝胶涂层及楔形角对组织损伤的影响,医用生物力学,2018, 33(4): 332-336。
23. 尹雪乐,张文光,于谦,神经电极组合参数对脑组织微动损伤影响研究,上海理工大学学报,2018,40(6):539-544+551。
24. 尹雪乐,张文光,唐嘉琪,于谦,多柄鱼骨状神经电极的微动模拟与优化设计,上海交通大学学报,2019,53(5): 529-534。
25. 于谦,张文光,尹雪乐,基于定向电沉积的神经电极表面性能,上海交通大学学报,2019,53(11): 1308-1315。
26. 李朝,华婷婷,张文光,非典型约束下关键链法在整车开发项目进度计划中的应用,项目管理技术,2020,18(6):135-140 。
27. 谢颉,张文光,尹雪乐,李伟,基于正交试验方法的柔性神经电极优化设计,上海交通大学学报,2020, 54(8):785-791。
28. 李伟, 张文光, 于谦, 谢颉,沉积工艺对聚苯胺涂层电学性能的影响及其抗磨损性能,上海交通大学学报,2020, 54(8):778-784。
29. 贺雨欣,张文光,许李悦,侵入式柔性神经电极的植入策略[J]. 医用生物力学, 2021, 36(01): 151-157.
30. 许李悦,张文光,贺雨欣,周旭晖, 辅助柔性神经电极植入的T形截面涂层的优化设计[J].西安交通大学学报,2021,55(07):158-165.
31. 贺雨欣,张文光,许李悦,周旭晖,用于辅助柔性神经电极深度植入的槽形截面硅针的设计[J]. 上海交通大学学报,2022,56(5)648-655.
32. 胥浩天,张文光,贺雨欣,许李悦. 柔性神经电极植入工具的振动植入参数研究 [J]. 华中科技大学学报(自然科学版),2022,50(12):89-97.