近期主要的代表性论文、著作、专利 [1] Hao Sua, Xuehui Shen∗, Chonghai Xua, Jianqun He, Baolin Wang, Guosheng Su. Surface characteristics and corrosion behavior of TC11 titanium alloy strengthened by ultrasonic roller burnishing at room and medium temperature. J MATER RES TECHNOL. 2020,9(x x):8172–8185. [2] Shi, Y., Shen, X.*, Xu, G. et al. Surface integrity enhancement of austenitic stainless steel treated by ultrasonic burnishing with two burnishing tips. Archiv.Civ.Mech.Eng 20, 79 ,2020. [3] Shen X, Shi Y L, Zhang J, et al. Effect of process parameters on micro-textured surface generation in feed direction vibration assisted milling[J]. International Journal of Mechanical Sciences, 2020. [4]Sun, J., Zhao, J., Huang, Z., Yan, K., Shen, X., Xing, J., ... & Li, B.. A Review on Binderless Tungsten Carbide: Development and Application. Nano-micro Letters, 2020,12(1), 1-37. [5] Shen X, Gong X, Zhang J, et al. An investigation of stress condition in vibration-assisted burnishing[J]. The International Journal of Advanced Manufacturing Technology, 2019, 105(1): 1189-1207. [6] Shen X H , Xu G F . Study of milling force variation in ultrasonic vibration-assisted end milling. Materials and Manufacturing Processes, 2017:1-7. [7]Shen Xuehui,Wang Mingyu. Finite element analysis of temperature field in vibration milling,Key Eng Mat, 2016:1030-1037. [8] Tao Guocan, Ma Chao, Bai Lijuan, Shen Xuehui, Zhang Jianhua. Experimental and Modeling Study on Cutting Forces of Feed Direction Ultrasonic Vibration assisted Milling[J]. The International Journal of Advanced Manufacturing Technology, 2016. [9]Tao Guocan, Ma Chao, Bai Lijuan, Shen Xuehui, Zhang Jianhua. Feed-Direction Ultrasonic Vibration Assisted Milling Surface Texture Formation[J]. Materials and Manufacturing Processes, 2016. [10] Tao Guocan, Zhang Jianhua, Shen Xuehui, Bai Lijuan, Ma Chao, Wang Jinjun. Feasibility Study on Ultrasonic Vibration Assisted Milling for Squamous Surface. Procedia CIRP, 2016, 42: 847-852. [11] Shen X H,Tao G C.Tribological behaviors of two micro textured surfaces generated by vibrating milling under boundary lubricated sliding.The International Journal of Advanced Manufacturing Technology,79 (9-12):1995-2002. [12] Shen X H,Wang M Y.Finite element analysis of temperature field in vibration milling.Key Engineering Materials,The thirteenth conference on machining and advanced manufacturing technology,2015. [13] Shen X H,Zhang J H.Studies on friction and wear properties of surface produced by ultrasonic vibration-assisted milling.The International Journal of Advanced Manufacturing Technology,67 (1- 4):349-356,2013. [14] Shen X H,Zhang J H,Xing D L. A study of surface roughness variation in ultrasonic vibration-assisted milling.The International Journal of Advanced Manufacturing Technology,58(5-8):553-561,2012. [15] Shen X H,Zhang J H,Li H,Wang J J,Wang X C.Ultrasonic vibration-assisted milling of aluminum alloy.The International Journal of Advanced Manufacturing Technology, 63 (1-4):41-49,2012.
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