[1] [1] THEPSONTHI T, ZEL T. An integrated toolpath and process parameter optimization for high-performance micro-milling process of Ti6Al4V titanium alloy［J］.International Journal of Advanced Manufacturing Technology, 2014, 75(1): 57-75.

[2] [2] LI H T, LAI X M, LI CH F, et al.. Development and performance test of meso-scale micro milling machine［J］. Journal of Mechanical Engineering, 2006, 42(11): 162-167.(in Chinese)

[3] [3] SUN Y ZH, LIANG Y CH, CHENG K. Micron and intermediate scale mechanical manufacturing［J］.Journal of Mechanical Engineering, 2004, 40(5): 1-6. (in Chinese)

[4] [4] GONG Y D, ZHANG J F, ZHANG Y ZH, et al.. Experimental research on surface quality in the process of high-speed and micro-scale milling［J］. Journal of Mechanical Engineering, 2013, 49(13): 190-198. (in Chinese)

[5] [5] TAKCS M, VER B, MSZROS I. Micromilling of metallic materials［J］. Journal of Materials Processing Technology, 2003, 138(1): 152-155.

[6] [6] WANG W, KWEON S H, YANG S H. A study on roughness of the micro-end-milled surface produced by a miniatured machine tool［J］. Journal of Materials Processing Technology, 2005, 162 (20): 702-708.

[7] [7] DORNFELD D, MIN S, TAKEUCHI Y. Recent advances in mechanical micromachining ［J］. CIRP Annals, 2006, 55(2): 745-768.

[8] [8] HE N, CAO Z Y, LI L. Experimental study of the surface roughness in micro-milling［J］. Mechanical Science and Technology for Aerospace Engineering, 2011, 30(5): 785-788. (in Chinese)

[9] [9] HUANG K T, FANG F ZH, GONG H. Effect of surface microscopic topology generated by ultra-precision turning on optical characteristics［J］. Opt. Precision Eng., 2013, 21(1): 101-107. (in Chinese)

[10] [10] DUAN CH ZH, HAO Q L. Surface roughness prediction in high speed milling of 45 steel［J］.Journal of Harbin Engineering University, 2015, 36(9): 1229-1233. (in Chinese)

[11] [11] BI G, SUN ZH J, ZHANG J F, et al.. Experiment on main factors affecting surface roughness in ultra-precision fly cutting［J］. Opt. Precision Eng., 2015, 23(10): 266-271. (in Chinese)

[12] [12] LIU T, XU Z W, CAO K X, et al.. Experimental research on cutting force characteristics and surface quality in micro-milling［J］.Nanotechnology and Precision Engineering, 2015, 13(4): 258-263. (in Chinese)

[13] [13] MALEKIAN M, MOSTOFA M G, PARK S S, et al..Modeling of minimum uncut chip thickness in micro machining of aluminum［J］. Journal of Materials Processing Technology, 2012, 212(3): 553-559.

[14] [14] SHI W T. Micro Cutting Technology［M］. Beijing: China Machine Press, 2011. (in Chinese)

[15] [15] WU J H, SHI ZH Y. Minimum chip thickness in orthogonal micro -cutting based on plasticity strain gradient theory［J］. Journal of Mechanical Engineering, 2009, 20(18): 2227-2230, 2247. (in Chinese)

[16] [16] DUAN C Z, HAO Q L. Surface roughness prediction of end milling process based on IPSO-LSSVM［J］.Journal of Advanced Mechanical Design, Systems and Manufacturing, 2014, 8(3): 24.

[17] [17] ZHANG X X, YU H D, XU J K, et al.. The research on milling force and surface roughness of high speed micro-milling aluminum alloy［J］.Modular Machine Tool and Automatic Manufacturing Technique, 2015, 56(7): 46-49. (in Chinese)

[18] [18] SHAW M C. Metal Cutting Principles (Second Edition)［M］.New York: Oxford University Press, 2005.

[19] [19] LI H Z, LIU K, LI X P. A new method for determining the undeformed chip thickness in milling ［J］. Journal of Materials Processing Technology, 2001, 113(1): 378-384.

[20] [20] YANG ZH CH, ZHANG D H, YAO C F, et al.. Effect of high speed milling parameters on surface integrity of TC4 titanium alloy［J］. Journal of Northwestern Polytechnical University, 2009, 27(4): 538-543. (in Chinese)

[21] [21] YANG H CH, YANG B SH, DU X W, et al..Research on surface roughness and defect of TB6 Titanium Alloy during milling［J］. Aeronautical Manufacturing Technology, 2017, 59(5): 60-66, 71. (in Chinese)

[22] [22] CHANG W CH, YI X B, LI B L, et al..Prediction model of cutting force and surface roughness in high-speed milling TB6 titanium alloy［J］. Manufacturing Technology and Machine Tool, 2017, 66(4): 102-107. (in Chinese)

[23] [23] KANG X J. Research on milling force and surface quality of high speed milling of 45 steel［D］. Xiangtan: Hunan University of Science and Technology, 2012. (in Chinese)

[24] [24] ZHANG Y J, QIN G H, HOU Y J, et al.. Prediction and Control of Surface Roughness for High Speed Machining of Titanium Alloy TC4［J］. Opt. Precision Eng., 2016, 24(10): 543-550. (in Chinese)

[25] [25] SU R H. Research on micro milling-grinding process surface quality control methods［D］.Shenyang: Northeastern University, 2010. (in Chinese)

[26] [26] WAN Y L, ZHANG X R, YU H D, et al.. An multi-index orthogonal test study of aluminum alloy surface roughness using high speed micro-milling process［J］. China Mechanical Engineering, 2013, 24(24): 3278-3282, 3288. (in Chinese)

[27] [27] SHI ZH Y. Study on micro cutting mechanism based on minimum uncut chip thickness［D］.Jinan: Shandong University, 2011. (in Chinese)

[28] [28] CAO ZH Q, ZHAO J, CHEN D X, et al.. Theory and experiment on hydrodynamic suspension ultra smooth machining for silicon wafers［J］. Opt. Precision Eng., 2007, 15(7): 1084-1089. (in Chinese)

[29] [29] YANG SH, XU J K, LI X Z, et al.. Experimental study on process parameters of high-speed micro-milling Al2O3 engineering ceramics［J］. Modular Machine Tool and Automatic Manufacturing Technique, 2014(9): 123-126. (in Chinese)

[30] [30] RAO X SH, ZHANG F H, LIU L F, et al..Surface characteristics for RB-SiC ceramics by electrical discharge diamond griding［J］. Opt. Precision Eng., 2016, 24(9): 2192-219. (in Chinese)

[31] [31] MA L J, WANG X B, LI Y F, et al.. Influence of cutting parameters on milling cutter runout in micro-end-milling straight groove ［J］. Journal of Mechanical Engineering, 2014, 50(9): 201-206. (in Chinese)

[32] [32] NIE Q, HUANG K, BI Q ZH, et al.. New Mathematic method of calculating instantaneous un-deformed chip with tool run-out in micro-end-milling thickness with tool run-out in micro-end-milling［J］. Journal of Mechanical Engineering, 2016, 52(3): 169-178. (in Chinese)

[33] [33] CHEN M J, CHEN N, HE N, et al.. The research progress of micro-milling in machining mechanism［J］. Journal of Mechanical Engineering, 2014, 50(5): 161-172. (in Chinese)