[1]Hongbing Wu, Sandy To,Serrated chip formation and their adiabatic analysis by using the constitutive model of titanium alloy in high speed cutting, Journal of Alloys and Compounds, 2015, 629(4), 368-373 (SCI)
[2] Hongbing Wu, Sandy To,Effects of electropulsing treatment on material properties and ultra-precision machining of titanium alloy,International Journal of Advanced Manufacturing Technology,2016 , 82 (9-12) ,2029-2036 (SCI)
[3] Hongbing Wu, Shaojian Zhang, 3D FEM simulation of milling process for titanium alloy Ti6Al4V,International Journal of Advanced Manufacturing Technology, 2014,71(5-8), 1319-1326 (SCI)
[4] Hongbing Wu,Lei Guo, Machinability of titanium alloy TC21 under orthogonal turning process titanium alloy TC21, Materials and Manufacturing Processes,2014,29(11-12), 1441-1445 (SCI)
[5] Hongbing Wu, Shaojian Zhang,Effects of cutting conditions on the milling process of titanium alloy Ti6Al4V, International Journal of Advanced Manufacturing Technology, 2015 , 77 (9-12) ,2235-2240 (SCI)
[6] Xiong ruibing, Wu hongbing#, Study on cutting mechanism of Ti6Al4V in ultra-precision machining, International Journal of Advanced Manufacturing Technology, 2016, 86(5-8),1-7 (SCI)
[7] Lou, Yonggou, Wu hongbing#, Improving machinability of titanium alloy by electro-pulsing treatment in ultra-precision machining, International Journal of Advanced Manufacturing Technology,2017 , 93 (5-8),2299-2304 (SCI)
[8] Xu Zhang, Hongbing Wu#. Influence of path on the ultra-precision polishing process of titanium alloy Ti6Al4V. International Journal of Advanced Manufacturing Technology, 2018, 98(5-8):1-8. (SCI)
[9] Xu Zhang, Hongbing Wu#. Effect of tool angle on cutting force and residual stress in the oblique cutting of TC21 alloy. International Journal of Advanced Manufacturing Technology, 2018(5):1-7. (SCI)
[10]Pei Lei, Wu Hongbing#. Effect of ultrasonic vibration on ultra-precision diamond turning of Ti6Al4V. International Journal of Advanced Manufacturing Technology, 2019.(103):433–440 (SCI)
[11]Zhao Zhao, Zengwen Dong. Hongbing Wu#. Effect of particle size on the ultraprecision polishing process of titanium alloy Ti6Al4V. Part C Journal of Mechanical Engineering Science .2019 (201-203):242-256 (SCI)
[12]Hu Keman,Lo Siolong, Hongbing Wu#, To Sandy。 Study on Influence of Ultrasonic Vibration on the Ultra-Precision Turning of Ti6Al4V Alloy Based on Simulation and Experiment. IEEE-Access .2019 (31):1051-1067 (SCI)
[13] Zhi-Xin Jia; Hong-Lin Li; Xue-Chang Zhang; Hong-Bing Wu,Study on the correlated design method of plate holes for progressive dies based on functional feature. International Journal of Advanced Manufacturing Technology, 2010, 49(1-4),1-12 (SCI)
[14] Hongbing Wu, Zhi Xin Jia,Xue Chang Zhang,Gang Liu,Study on simulation and experiment of drilling for titanium alloys, Materials Science Forum , 2012,704(5), 657-663 (EI)
[15]Hongbing Wu, Jiguang Li, Xuechang Zhang,Study on experiment of drilling for titanium alloy Ti6Al4V,Applied Mechanics and materials, 2011, 38(6),1283-1286 ( EI)
[16] WU Hongbing, Jia Zhixin, Zhang xuechang, Study on numerical simulation and experiment of titanium alloy for high speed milling, Proceedings 2009 second international conference on intelligent computation technology and automation, Changsha, 2009,35(5),271-274 (EI)
[17] Wu hongbing, Jia zhixin, Zhang xuechang, Xu chengguang, Study on experiment of drilling for titanium alloy Ti6Al4V, Applied Mechanics and materials, 2010,37(3), 1283-1286 ( EI)
[18]吴红兵,王朋,钛合金超精密切削过程的数值模拟与实验分析,红外与激光工程,2014,43(12) 3988-3993, (EI)
[19]吴红兵,史云龙,杜雪,熊瑞斌,石松.电脉冲处理对钛合金超精密切削的影响, 红外与激光工程, 2016 , 45 (2) ,218-221 (EI)
[20]吴红兵,贾志欣,刘刚,毕运波,董辉跃,航空钛合金高速切削有限元建模,浙江大学学报, 2010,44(5),982-987 (EI)
[21]吴红兵,柯映林, 刘刚,董辉跃,航空框类整体结构件铣削加工变形研究,浙江大学学报, 2009,43(3),546-550 (EI)
[22]吴红兵,刘刚, 柯映林,董辉跃,高速切削钛合金的已加工表面残余应力的数值模拟研究,浙江大学学报, 2007,40(5), 759-762 (EI)
[23]吴红兵,柯映林, 成群林,毕运波,航空铝合金高速铣削加工的三维数值模拟研究. 浙江大学学报, 2008, 42(2),234-238 (EI)
[24]吴红兵,刘刚,毕运波,董辉跃,刀具几何参数对钛合金Ti6Al4V高速切削加工的影响,中国机械工程, 2008,20(19),2419-2422 (EI)
[25]吴红兵,贾志欣,张学昌,刘刚,航空框类结构件铣削变形的数值建模研究,中国机械工程, 2009,11(6),1322-1325
[26]郭磊,吴红兵#,高速切削TC4有限元数值模拟研究,兵器材料科学与工程,2013,36,(2),88-91
[27]史云龙,张钊,吴红兵#,基于ABAQUS的H13钢裂纹扩展数值模拟,兵器材料科学与工程, 2015,20(2),100-113
[28]裴磊, 吴红兵#. 钛合金TC21车削过程的三维数值建模与试验研究. 机床与液压, 2018, 46(5):74-77.
