Publications: [1] Shaochuan Li, Guijian Xiao, Xiaoqin Zhuo, Benqiang Chen, Zeyong Zhao, Yun Huang. Fatigue performance and failure mechanism of ultrasonic-assisted abrasive-belt-ground Inconel 718 [J]. International Journal of Fatigue, 2023, 168: 107406. [2] Shaochuan Li, Guijian Xiao, Benqiang Chen, Xiaoqin Zhuo, Jiayu Xu, Yun Huang. Surface formation modeling and surface integrity research of normal ultrasonic assisted flexible abrasive belt grinding [J], Journal of Manufacturing Processes [J], 2022, 80: 232-246. [3] Shaochuan Li, Guijian Xiao, Zeyong Zhao, Xiaoqin Zhuo,Yingxin Wang, Benqiang Chen, Yun Huang. Multi-dimensional ultrasonic-assisted belt grinding on the surface integrity of Inconel 718 [J]. Journal of Manufacturing Processes, 2023, 102: 700-717. [4] Shaochuan Li, Guijian Xiao, Benqiang Chen, Xiaoqin Zhuo, Zeyong Zhao, Yun Huang. Influence mechanism of abrasive belt wear on fatigue resistance of TC17 grinding surface [J], Engineering Failure Analysis, 2022,141:106644. [5] Shaochuan Li, Guijian Xiao, Huajun Cao,Yingxin Wang, Zeyong Zhao, Xiaoqin Zhuo, Yun Huang.Two-dimensional Ultrasound-assisted Belt Grinding Method Based on Phase Regulation and its Effect on the Surface Integrity of GH4169 [J]. Mechanical engineering(in Chinese),2024:1-15. [6] Yun Huang, Shaochuan Li, Guijian Xiao, et al. Research on the fatigue failure behavior of 1Cr17Ni2 blades ground by abrasive belt with passivation treatment [J]. Engineering Failure Analysis, 2021, 8, 105670. [7] Yun Huang, Shaochuan Li, Guijian Xiao, Benqiang Chen,Youdong Zhang. Research progress of aero-engine blade materials and anti-fatigue grinding technology [J]. Journal of aeronautical materials, 2021, 41(04): 17-35. [8] Guijian Xiao, Xiaoqin Zhuo, Shaochuan Li, Benqiang Chen, Zeyong Zhao, Yingxin Wang. Study on surface creation law of planar two-dimensional ultrasonic-assisted abrasive belt grinding [J]. Journal of Materials Processing Technology, 2023, 312: 117847. [9] Guijian Xiao, Benqiang Chen, Shaochuan Li, Xiaoqin Zhuo.Fatigue life analysis of aero-engine blades for abrasive belt grinding considering residual stress [J]. Engineering Failure Analysis, 2022,131: 105846. [10] Guijian Xiao, Benqiang Chen, Shaochuan Li, Xiaoqin Zhuo, Zeyong Zhao. Surface integrity and fatigue performance of GH4169 superalloy using abrasive belt grinding [J]. Engineering Failure Analysis, 2022,142: 106764. [11] Guijian Xiao,Shulin Chen, Shaochuan Li,Benqiang Chen,Xiaoqin Zhuo, Yun Huang. Study on influence of abrasive wear on surface integrity of TC17 grinding by abrasive belt [J]. Aeronautical Manufacturing Technology (in Chinese),2022,65(04). [12] Ying Liu, Jiayu Xu, Kun Zhou, Shaochuan Li ,Yun Huang, Guijian Xiao. Numerical and experimental investigation on temperature field during belt grinding considering elastic contact [J]. Case Studies in Thermal Engineering, 2022, 40: 102555. [13] Song Kangkang, Xiao Guijian, Chen Shulin, Li Shaochuan. Analysis of thermal-mechanical causes of abrasive belt grinding for titanium alloy [J]. International Journal of Advanced Manufacturing Technology, 2021, 113(11): 3241-3260. [14] Ying Liu, Jiayu Xu, Guijian Xiao, Kun Zhou, Shaochuan Li ,Yun Huang. Research Status of Superalloy Grinding Thermal Mechanical Coupling and Their Effects on Surface Integrity[J]. Surface Technology, 2023, 52 (03): 1-18+34. (EI) |
