[1] 袁巨龙. 功能陶瓷的超精密加工技术[M]. 哈尔滨:哈尔滨工业大学出版社,2000. YUAN Julong. Ultra-precision machining technology for functional ceramics[M]. Harbin:Harbin Institute of Technology Press,2000. [2] 袁巨龙,王志伟,文东辉,等. 超精密加工现状综述[J]. 机械工程学报,2007,43(1):35-48. Yuan Julong,WANG Zhiwei,WENG Donghui,et al. Development research of science and technologies in ultra-precision machining field[J]. Chinese Journal of Mechanical Engineering,2007,43(1):35-48. [3] 李标,李军,高平,等. 游离磨料和固结磨料研磨后亚表面裂纹层深度研究[J]. 中国机械工程,2013,24(7):895-905. LI Biao,LI Jun,GAO Ping,et al. Study on the depth of subsurface crack layer after grinding of free abrasive and fixed abrasive[J]. China Mechanical Engineering,2013,24(7):895-905. [4] 袁巨龙,吴喆,吕冰海,等. 非球面超精密抛光技术研究现状[J]. 机械工程学报,2012,48(23):167-177. YUAN Julong,WU Zhe,LÜ Binghai,et al. Review on ultra-precision polishing technology of aspheric surface[J]. Journal of Mechanical Engineering,2012,48(23):167-177. [5] KORDONSKI W,GOLINI D. Progress update in magnetorheological finishing[J]. International Journal of Modern Physics B,1999,13(14n16):2205-2212. [6] LAMBROPOULOS J C,SU X,TONG F. Constitutive law for the densification of fused silica,with applications in polishing and microgrinding[J]. Journal of the American Ceramic Society,2010,79(6):1441-1452. [7] DEGROOTE J E. Surface interactions between nanodiamonds and glass in magnetorheological finishing (MRF)[D]. Cambridge:Harvard University,2007. [8] DEGROOTE J E,MARINO A E,WILSON J P,et al. Removal rate model for magnetorheological finishing of glass.[J]. Applied Optics,2007,46(32):7927-41. [9] SHOREY A B. Mechanisms of material removal in magnetorheological finishing(MRF) of glass[D]. Cambridge:Harvard University,2000. [10] MAHAJAN U,BIELMANN M,SINGH R K. Abrasive effects in oxide chemical mechanical polishing[J]. MRS Proceedings,1999,566:27-32. [11] DUNKEN H. Surface chemistry of optical glasses[J]. Journal of Non-Crystalline Solids,1991,129(1-3):64-75. [12] KORDONSKI W,GORODKIN S. Material removal in magnetorheological finishing of optics[J]. Applied Optics,2011,50(14):1984-1994. [13] MIAO C. Frictional forces in material removal for glasses and ceramics using magnetorheological finishing[J]. Dissertations & Theses-Gradworks,2010,71(6):3734-3619. [14] 张峰,潘守甫,张学军,等. 磁流变抛光材料去除的研究[J]. 光学技术,2001,27(6):522-523. ZHANG Feng,PAN Shoufu,ZHANG Xuejun,et al. Research on material removal of magnetorheological finishing[J]. Optical Technology,2001,27(6):522-523. [15] 张峰,张学军,余景池,等.磁流变抛光数学模型的建立[J]. 光学技术,2000,26(2):190-192. ZHANG Feng,ZHANG Xuejun,YU Jingchi,et al. Foundation of mathematics model of magnetorheological finishing.[J]. Optical Technology,2000,26(2):190-192. [16] ZHANG Feng. Research progress of magnetorheological finishing technology at CIOMP[J]. Laser & Optoelectronics Progress,2015,52(9):092202. [17] 石峰,戴一帆,彭小强,等. 纳米金刚石磨料磁流变抛光材料去除机理与工艺研究[J]. 国防科技大学学报,2009,31(4):25-30. SHI Feng,DAI Yifan,PENG Xiaoqiang,et al. Study on the mechanism and arts of magnetorheological finishing (MRF) by nano-sized diamond abrasives[J]. Journal of National University of Defense Technology,2009,31(4):25-30. [18] 张云,冯之敬,赵广木. 磁流变抛光工具及其去除函数[J]. 清华大学学报,2004,44(2):190-193. ZHANG Yun,FENG Zhijing,ZHAO Guangmu. Magnetorheological finishing tool and removal function[J]. Journal of Tsinghua University,2004,44(2):190-193. [19] 徐志强. 小口径非球面斜轴磁流变抛光关键技术研究[D]. 长沙:湖南大学,2015. XU Zhiqiang. Study on key technology of inclined magnetorheological polishing for micro aspherical surface[D]. Changsha:Hunan University,2015. [20] YIN Shaohui,XU Zhiqiang,CHEN Fengjun,et al. Inclined axis magnetorheological finishing technology for small aspherical surface[J]. Journal of Mechanical Engineering,2013,49(17):33-38. [21] 彭小强,戴一帆,李圣怡. 磁流变抛光的材料去除数学模型[J]. 机械工程学报,2004,40(4):67-70. PENG Xiaoqiang DAI Yifan,LI Shengyi. Mathematical model for material removal of magnetorheological polishing[J]. Chinese Journal of Mechanical Engineering,2004,40(4):67-70. [22] ZHANG Feihu,WANG Huijun,LUAN Dianrong,et al. Research on material removal of ultrasonic-magnetorheo logical compound finishing[J]. International Journal of Machining & Machinability of Materials,2007,2(1):50-58. [23] ZHANG F H,WANG H J,LIU J F,et al. Study on the surface quality of optical glass in ultrasonic-magnetorheo logical compound finishing[J]. Key Engineering Materials, 2009,389-390:181-186. [24] ZHANG F H,YU X B,ZHANG Y. Analysis of tangential position error or removal function error in ultrasonic-magnetorheological combined finishing[J]. Key Engineering Materials,2012,516:390-395. [25] 石峰,戴一帆,彭小强,等. 磁流变抛光过程的材料去除三维模型[J]. 中国机械工程,2009,20(6):644-648. SHI Feng,DAI Yifan,PENG Xiaoqiang,et al. Three-dimensional material removal model of magnetorhe ological finishing(MRF)[J]. China Mechanical Engineering, 2009,20(6):644-648. [26] WINSLOW W M. Induced fibration of suspensions[J]. Journal of Applied Physics,1949,20(12):1137-1140. [27] KURIYAGAWA T,SAEKI M,SYOJI K. Electrorheological fluid-assisted ultra-precision polishing for small three-dimensional parts[J]. Precision Engineering,2002,26(4):370-380. [28] 赵云伟. 电流变抛光硬质合金模具理论与试验研究[D]. 长春:吉林大学,2007. ZHAO Yunwei. Theoretical and experimental investiga tion into electrorheological polishing of WC molding dies[D]. Changchun:Jilin University,2007. [29] 张雷,贺新升,张莹,等. 新型电流变抛光工具开发及其抛光试验[J]. 吉林大学学报,2010,40(4):1009-1014. ZHANG Lei,HE Xinsheng,ZHANG Ying,et al. Development of new type ER fluid-assisted polishing tool and its polishing experiment[J]. Journal of Jilin University,2010,40(4):1009-1014. [30] ZHANG L,KURIYAGAWA T,KAKU T,et al. Investigation into electrorheological fluid-assisted polishing[J]. Interna-tional Journal of Machine Tools & Manufacture,2005,45(12):1461-1467. [31] LU J B,YAN Q S,TIAN H,et al. Polishing properties of tiny grinding wheel based on Fe3O4,electrorheological fluid[J]. Journal of Materials Processing Technology,2009,209(11):4954-4957. [32] KOYAMA K,MINAGAWA K,WATANABE T,et al. Electro-magneto-rheological effects in parallel-field and crossed-field systems[J]. J. Non-Newtonian Fluid Mech. 1995,58(2-3):195-206. [33] LU J B. Parametric study of micro machining with instantaneous tiny-grinding wheel based on the magnetor heological effect of abrasive slurry[J]. International Journal of Materials & Product Technology,2008,31(1):113-124.. [34] KIM W B,LEE S J,KIM Y J,et al. The electromechanical principle of electrorheological fluid-assisted polishing[J]. International Journal of Machine Tools & Manufacture,2003,43(1):81-88. [35] KIM W B,MIN B K,LEE S J. Development of a padless ultraprecision polishing method using electrorheological fluid[J]. Journal of Materials Processing Tech.,2004,155-156(1):1293-1299. [36] KURIYAGAWA T,SAEKI M,SYOJI K. Electrorheological fluid-assisted ultra-precision polishing for small three-dimensional parts[J]. Precision Engineering,2002,26(4):370-380. [37] SU J,CHENG H,WEN Y,et al. Investigation into the mechanism for ultra smooth electrorheological finishing using wheel-like finishing tool[J]. Journal of Materials Processing Technology,2016,238:124-131. [38] TRICARD M,KORDONSKI W,SHOREY A,et al. Magnetorheological jet finishing of conformal,freeform and steep concave optics[J]. CIRP Annals-Manufacturing Technology,2006,55(1):309-312. [39] 张学成,戴一帆,李圣怡,等. 基于CFD的磁射流抛光去除机理分析[J]. 国防科技大学学报,2007,29(4):110-115. ZHANG Xuecheng,DAI Yifan,LI Shengyi,et al. Analysis of material removal mechanism in magnetorheological jet polishing by CFD[J]. Journal of National University of Defense Technology,2007,29(4):110-115. [40] LEE J W,HA S J,CHO Y K,et al. Investigation of the polishing characteristics of metal materials and development of micro MR fluid jet polishing system for the ultra precision polishing of micro mold pattern[J]. Journal of Mechanical Science & Technology,2015,29(5):2205-2211. [41] KORDONSKI W,SHOREY A. Magnetorheological (MR) jetTM finishing technology[J]. Journal of Intelligent Material Systems & Structures,2016,18(12):1127-1130. [42] 戴一帆,张学成,李圣怡,等. 确定性磁射流抛光技术[J]. 机械工程学报,2009,45(5):171-176. DAI Yifan,ZHANG Xuecheng,LI Shengyi,et al. Deterministic magnetorheological jet polishing technology[J]. Journal of Mechanical Engineering,2009,45(5):171-176. [43] WANG T,CHENG H B,DONG Z C,et al. Removal character of vertical jet polishing with eccentric rotation motion using magnetorheological fluid[J]. Journal of Materials Processing Tech.,2013,213(9):1532-1537. [44] YANG H,CHENG H,FENG Y,et al. Removal of millimeter-scale rolled edges using bevel-cut-like tool influence function in magnetorheological jet polishing[J]. Applied Optics,2018,57(13):3377-3384. [45] KIM W B,NAM E,MIN B K,et al. Material removal of glass by magnetorheological fluid jet[J]. International Journal of Precision Engineering & Manufacturing,2015,16(4):629-637. [46] LI M,LYU B,YUAN J,et al. Shear-thickening polishing method[J]. International Journal of Machine Tools & Manufacture,2015,94:88-99. [47] 李敏,袁巨龙,吴喆,等. 复杂曲面零件超精密加工方法的研究进展[J]. 机械工程学报,2015,51(5):178-191. LI Min,YUAN Julong,WU Zhe,et al. Progress in ultra-precision machining methods of complex curved parts[J]. Journal of Mechanical Engineering,2015,51(5):178-191. [48] 李敏,吕冰海,袁巨龙,等. 剪切增稠抛光的材料去除数学模型[J]. 机械工程学报,2016,(07):142-151. LI Min,LÜ Binghai,YUAN Julong,et al. Material removal mathematics model of shear thickening polishing[J]. Journal of Mechanical Engineering,2016,52(7):142-151. |