NI Jing1;SHU Yang1;MENG Qingxin1;LYU Junjie1;WANG Shuying1;HU Chunmei2. Load Characteristic Modeling and Verification for Texture Broaches[J]. China Mechanical Engineering.
[1]于占江,王雯,张超楠,等.微型车刀微孔织构设计及高速微车削试验[J].润滑与密封,2016(2):18-22.
YU Zhanjiang,WANG Wen,ZHANG Chaonan,et al.Design of Micro Hole Texture Tool and Experimental Study on High Speed Micro-turning[J].Lubrication and Seal,2016(2):18-22.
[2]邱孝聪,樊曙天,伍勇.表面织构改善摩擦磨损性能的研究进展[J].润滑与密封,2013(8):121-124.
QIU Xiaocong, FAN Shutian, WU Yong.Study of Surface Texture for Improving Friction and Wear Properties [J].Lubrication and Seal,2013(8):121-124.
[3]VLADESCU S C, OLVER A V, PEGG I G, et al.The Effects of Surface Texture in Reciprocating Contacts—an Experimental Study[J].Tribology International,2015,82:28-42.
[4]KHAIMOVICH A I, STEPANOV A A.Automated Calculation of Broaching Parameters [J].Russian Engineering Research,2015,35(8):615-616.
[5]RAGHAVENDRA K C,APPU K,TU[G]RUL.Mechanistic Force Modeling for Broaching Process [J].International Journal of Manufacturing Engineering,2014,2014:1-10.
[6]SCHROETER R B,BASTOS C M,CRICHIGNO J M.Simulation of the Main Cutting Force in Crankshaft Turn Broaching[J].International Journal of Machine Tools and Manufacture,2007,47(12/13):1884-1892.
[7]KLOCKE F,GIERLINGS S,BROCKMANN M, et al.Force-based Temperature Modeling for Surface Integrity Prediction in Broaching Nickel-based Alloys[J].Procedia CIRP,2014,13:314-319.
[8]VOGTEL P,KLOCKE F,PULS H,et al.Modelling of Process Forces in Broaching Inconel 718[J].Procedia CIRP,2013,8:409-414.
[9]HOSSEINI A, KISHAWY H A.On the Optimized Design of Broaching Tools[J].Journal of Manufacturing Science & Engineering,2013,136(1):507-513.
[10]倪敬,顾瞻华,杨肖.内孔拉削动态负载计算模型[J].浙江大学学报(工学版),2017,51(3):445-452.
Ni Jing,GU Zhanhua,YANG Xiao.Dynamic Load Computing Model for Inner Hole Broaching[J].Engineering Journal of Zhejiang University,2017,51(3):445-452.