HUANG Xian-zhen, HU Sen, ZHANG Yi-min. On the Calculation Method for the Reliability of Chatter Stability in CNC Milling[J]. Journal of Northeastern University:Natural Science, 2017, 38(5): 675-679.
[1]刘强,李忠群.数控铣削加工过程仿真与优化:建模、算法与工程应用[M].北京:航空工业出版社,2010:57-93.(Liu Qiang,Li Zhong-qun.Simulation and optimization of CNC milling process [M].Beijing:Aviation Industry Press,2010:57-93.)
[2]Altintas Y,Stn G,Merdol D,et al.Chatter stability of milling in frequency and discrete time domain [J].CIRP Journal of Manufacturing Science & Technology,2008,1(1):35-44.
[3]Altintas Y,Budak E.Analytical prediction of stability lobes in milling [J].CIRP Annals:Manufacturing Technology,1995,44(1):357-362.
[4]Merdol S D,Altintas Y.Multi frequency solution of chatter stability for low immersion milling [J].Journal of Manufacturing Science & Engineering,2004,126(3):459-466.
[5]Smith S,Tlusty J.Efficient simulation programs for chatter in milling [J].CIRP Annals:Manufacturing Technology,1993,42(1):463-466.
[6]Campomanes M L,Altintas Y.An improved time domain simulation for dynamic milling at small radial immersions [J].Journal of Manufacturing Science & Engineering,2003,125(3):416-422.
[7]Bayly P V,Halley J E,Mann B P,et al.Stability of interrupted cutting by temporal finite element analysis [J].Journal of Manufacturing Science & Engineering,2003,125(2):220-225.
[8]Insperger T,Stn G.Semi-discretization method for delayed systems [J].International Journal for Numerical Method in Engineering,2002,55(5):503-518.
[9]Ding Y,Zhu L M,Zhang X J.A full-discretization method for prediction of milling stability [J].International Journal of Machine Tools & Manufacture,2010,50(5):502-509.
[10]Iglesias A,Munoa J,Ciurana J.Optimisation of face milling operations with structural chatter using a stability model based process planning methodology [J].International Journal of Advanced Manufacturing Technology,2014,70(1/2/3/4):559-571.
[11]冯吉路,孙志礼,孙洪哲,等.铣削颤振及其可靠度分析 [J].组合机床与自动化加工技术,2015(12):8-11.(Feng Ji-lu,Sun Zhi-li,Sun Hong-zhe,et al.Investigation of the milling chatter and its probability [J].Modular Machine Tool & Automatic Manufacturing Technique,2015(12):8-11.)
[12]Ding H,Ding Y,Zhu L M.On time-domain methods for milling stability analysis [J].Chinese Science Bulletin,2012,57(33):4336-4345.
[13]Gradisek J,Kalveram M,Insperger T,et al.On stability prediction for milling [J].International Journal of Machine Tools & Manufacture,2005,45:769-781.
[14]Farkas M.Periodic motions [M].New York:Springer-Verlag,1994:151-202.
[15]郁磊,史峰,王辉,等.MATLAB智能算法 [M].北京:北京航空航天大学出版社,2015:1-37.(Yu Lei,Shi Feng,Wang Hui,et al.MATLAB intelligent algorithm [M].Beijing:Beihang University Press,2015:1-37.) (上接第674页)
[11]Thirunakaran R,Kim K T,Kang Y M, et al.Cr3+modified LiMn2O4 spinel intercalation cathodes through oxalic acid assisted sol-gel method for lithium rechargeable batteries[J].Materials Research Bulletin,2005,40:177-186.
[12]Wu C,Wu F,Chen L Q, et al.X-ray diffraction and X-ray photoelectron spectroscopy analysis of Cr-doped spinel LiMn2O4 for lithium ion batteries[J].Solid State Ionics,2002,152/153:335- 339.
[13]Chida Y,Wada H,Shizuka K.Relationship between cycle life of Li(Mn2-○xLi○x)O4-○δ and oxygen deficiency δ[J]. Journal of Power Sources,1999,81/82:454-457.
[14]Zhou X Y,Chen M M,Bai H L,et al.Preparation and electrochemical properties of spinel LiMn2O4 prepared by solid-state combustion synthesis[J].Vacuum,2014,99:49-55.
[15]Tang W,Liu L L,Tian S,et al.LiMn2O4 nanorods as a super-fast cathode material for aqueous rechargeable lithium batteries[J].Electrochemistry Communications,2011,13:1159-1162.
[16]Liu J,Manthiram A.Understanding the improvement in the electrochemical properties of surface modified 5V LiMn1.42Ni0.42Co0.16O4 spinel cathodes in lithium-ion cells[J].Chemistry of Materials,2009,21:1695-1707.
[17]Suryakala K,Paruthimal K G,Vasudevan T.Synthesis and characterization of Cr-doped LiMn2-○xCr○xO4(x=0.1-0.4) cathode for Li-ion battery[J].Materials Chemistry and Physics,2007,104:479-482.