Dong K. Interpretation of the “14th Five-Year Plan” intelligent manufacturing development plan and trend research. China Ind Inf Technol, 2022, 1: 24-29.

Xu H. Vigorously develop high-end equipment manufacturing. China Electron News, 2022.

Huang KT, Gong H, Chen XB. Study of ultra-precision turning path calculation of freeform surface with free contours. Int J Adv Manuf Technol, 2022, 121: 5451-5462.

Zhong YY, Dai YF, Xiao H, et al. Experimental study on surface integrity and subsurface damage of fused silica in ultra-precision grinding. Int J Adv Manuf Technol, 2021, 115: 4021-4033.

Zhang SJ, Zhou YP, Zhang HJ, et al. Advances in ultra-precision machining of micro-structured functional surfaces and their typical applications. Int J Mach Tool Manuf, 2019, 142: 16-41.

Zhu WL, Beaucamp A. Compliant grinding and polishing: a review. Int J Mach Tool Manuf, 2020, 158.

Yang YK, Wang ZK, Pang MH, et al. The effect of process parameters on chemical mechanical polishing of quartz glass. Int J Mod Phys B, 2022, 36: 2240032.

Yuan JL, Zhang FH, Dai YF, et al. Development research of science and technologies in ultra-precision machining field. Chin J Mech Eng, 2010, 46(15): 161-177.

Zhang J, Dai L, Wang F, et al. Restraint of mid-spatial-frequency error aspheric surface by small-tool adaptive polishing. Acta Opt Sin, 2013, 33(8): 202-208.

Xu J, Zou P, Kang D, et al. Theoretical and experimental study of bulge formation in laser polishing of 304 stainless steel. J Manuf Process, 2021, 66: 39-52.

Peng YF, Yang L, Liu XY. Polishing process and progress of calcium fluoride. Aeronaut Manuf Technol, 2022, 65(13): 14-25.

Seo J. A review on chemical and mechanical phenomena at the wafer interface during chemical mechanical planarization. J Mater Res, 2021, 36: 235-257.

Subramani K, Vasudevan K, Karthik K, et al. Insights of abrasive water jet polishing process characteristics and its advancements. Mater Today Proc, 2022, 52(3): 1113-1120.

Xiao H, Dai Y, Duan J, et al. Material removal and surface evolution of single crystal silicon during ion beam polishing. Appl Surf Sci, 2021, 544(1): .

Yin SH, Deng ZM, Guo YF, et al. Magnetorheological polishing using large polishing tool excited by electromagnetic field for silicon carbide wafer. Surf Technol, 2020, 49(10): 309-315.

Lv HF (2010) Research on removing subsurface damage by using magnetorheological finishing technology. Dissertation, National University of Defense Technology

Li SY, Peng XQ. Basic theory and method of controllable compliant tools for optic elements manufacturing. J Mech Eng, 2013, 49(17): 1-9.

Shi F, Dai YF, Peng XQ, et al. Removal of subsurface damage in grinding by magnetorheological finishing. Opt Precis Eng, 2010, 18(1): 162-168.

Lv HF, Zheng ZW, Peng XQ, et al. Research on removing subsurface damage by using magnetorheological finishing technology. Aviat Precis Manuf Technol, 2010, 46(4): 20-23.

Lu MM, Zhuang XL, Zhou JK, et al. Distribution model and optimization design of cluster magnetorheological field. Manuf Technol Mach Tool, 2021, 10: 45-49.

Rabinow J. The magnetic fluid clutch. Trans Am Inst Electr Eng, 1948, 67(2): 1308-1315.

Lu JY (2008) Research on inverted device for magnetorheological finishing. Dissertation, Harbin Institute of Technology

Kordonski WI, Jacobs SD. Magnetorheological finishing. Int J Mod Phys B, 1996, 10: 2837-2848.

Harris DC. History of magnetorheological finishing. Proc SPIE, 2011, 8016(4): 561-566.

Li LX (2016) Study on the key techniques of magnetorheological finishing for large aspheric optics. Dissertation, University of Chinese Academy of Sciences

Li Z (2016) Research on the key technology of combined magnetorheological finishing. Dissertation, Hunan University

Golini D, Kordonski WI, Dumas P, et al. Magnetorheological finishing (MRF) in commercial precision optics manufacturing. Proc SPIE, 1999, 3782: 80-91.

Lei LG (2021) Research on magnetorheological polishing technology of pseudo-random trajectory based on parametric grid. Dissertation, Jilin University

Li Y (2019) Study on the wear mechanism and suppression method of magnetorheological polishing wheel. Dissertation, China Academy of Engineering Physics

QED Technologies Inc (2012) QED Championship date. QED Technologies, Rochester. https://qedmrf.com/

Zhang F, Yu JC, Zhang XJ, et al. Magnetorheological finishing technology. Opt Precis Eng, 1999, 7(5): 1-8.

Zhang F, Zhang XJ, Yu JC, et al. Foundation of mathematics model of magnetorheological finishing. Opt Technol, 2000, 26(2): 190-192.

Zhang F, Pan SF, Zhang XJ, et al. Research on material removal of magnetorheological finishing. Opt Technol, 2004, 27(6): 522-523.

Zhang Y, Feng ZJ, Zhao GM. Magnetorheological finishing tool and removal function. J Tsinghua Univ, 2004, 44(2): 190-193.

Peng XQ, Dai YF, Li SY. Material removal model of magnetorheological finishing. J Mech Eng, 2004, 40(4): 67-70.

You WW, Peng XQ, Dai YF. MR fluids for finishing use. Opt Precis Eng, 2004, 12(3): 330-334.

Dai YF, Shi F, Peng XQ, et al. Deterministic figuring in optical machining by magnetorheological finishing. Acta Opt Sin, 2010, 30(1): 198-205.

Beier M, Scheiding S, Gebhardt A, et al. Fabrication of high precision metallic freeform mirrors with magnetorheological finishing (MRF). Proc SPIE, 2013, 8884: 139-152.

Schinhaerl M, Rascher R, Stamp R, et al. Filter algorithm for influence functions in the computer controlled polishing of high-quality optical lenses. Int J Mach Tool Manuf, 2007, 47(1): 107-111.

Kim DW, Cho MW, Lee JW, et al. Ultra-precision polishing of Si3N4 ceramics using magnetorheological fluids and diamond abrasives. J Ceram Process Res, 2009, 10(3): 290-295.

Huang W, Zhang YF, Zheng YC, et al. Magnetorheological finishing machine and technique based on two-polishing-head. J Appl Opt, 2014, 35(3): 494-499.

Yan QS, Tang AJ, Lu JB, et al. Development of a new plate polishing technique with an instantaneous tiny-grinding wheel cluster based on magnetorheological effect. Adv Mater Res, 2008, 53/54: 155-160.

Singh AK, Jha S, Pandey PM. Design and development of nanofinishing process for 3D surfaces using ball end MR finishing tool. Int J Mach Tool Manuf, 2011, 51(2): 142-151.

Singh AK, Jha S, Pandey PM. Nano-finishing of a typical 3D ferromagnetic workpiece using ball end magnetorheological finishing process. Int J Mach Tool Manuf, 2012, 63(4): 21-31.

Niranjan M, Jha S, Kotnala RK. Ball end magnetorheological finishing using bidisperse magnetorheological polishing fluid. Mater Manuf Process, 2014, 29(4): 487-492.

Su YR, Li D, Liu HN, et al. Experiment research of polishing capability of magnetorheological finishing with a small permanent magnet ball-end tool. Key Eng Mater, 2013, 589(590): 497-501.

Wang YQ, Yin SH, Huang H, et al. Magnetorheological polishing using a permanent magnetic yoke with straight air gap for ultra-smooth surface planarization. Precis Eng, 2015, 40: 309-317.

Li T, Xie MJ, Du WZ. The necessity and development direction of ultra-precision machining are briefly discussed. Ind Heat, 2021, 50(8): 42-44.

Liu HN, Qin B, Wang YZ, et al. Interference analysis and ultra-precision grinding technology of hemispherical resonator curved surface machining. Diam Abras Eng, 2022, 42(1): 10-17.

Wang B, Zhang WL, Shi F, et al. Study on the repair technology of laser damage-fused silica optics based on the neural network method. Materials, 2022, 15(15): 5274.

Zhang WY. Research status and application progress of biomedical metal materials. Met World, 2020, 2020(1): 21-27.

Kunal A, Anant KS. Magnetorheological finishing of UHMWPE acetabular cup surface and its performance analysis. Mater Manuf Process, 2020, 35(14): 1631-1649.

Yan QS, Zhao Y, Liang ZB, et al. Study on cluster magnetorheological finishing of medical titanium alloy with dynamic magnetic fields. Surf Technol, 2021, 50(09): 322-332+378.

Sun BY, Yu BJ, Tan HQ, et al. Magnetorheological Finishing Process of CoCrMo Alloy. Surf Technol, 2022, 51(10): 310-320.

Chen BS, Zheng C, Huang DC. Experimental study on magnetorheological polishing process of 316L stainless steel formed by SLM. Tool Eng, 2021, 55(10): 82-86.

Paswan SK, Aggarwal A, Singh AK. Investigation of magnetorheological fluid-based finishing process for improving the functional performance of hydraulic cylinder. Proc Inst Mech Eng E J Process, 2022, 236(3): 824-837.

Singh M, Singh AK. Magnetorheological finishing of copper cylindrical roller for its improved performance in printing machine. Proc Inst Mech Eng E J Process, 2021, 235(1): 103-115.

Tang YK (2017) Research on wear characteristic of fixed abrasive pad. Dissertation, Nanjing University of Aeronautics and Astronautics

Zhang P, Yang JF, Qiu HD. Material removal rate of double-faced mechanical polishing of 4H-SiC substrate. Int J Adv Manuf Technol, 2021, 118: 3989-3993.

Yang C, Zhang NW, Bai Y. High-efficiency and high-quality combined polishing method of zinc selenide crystal. Infrared Laser Eng, 2022, 51(9): 37-42.

Peng XQ, Jiao FF, Chen HF, et al. Novel magnetorheological figuring of KDP crystal. Chin Opt Lett, 2011, 9(10): .

Pan JS, Yan QS, Lu JB, et al. Cluster magnetorheological effect plane polishing technology. J Mech Eng, 2014, 50(1): 205-212.

Mahender KG, Dinakara D, Inder MC, et al. Experimental investigation and machine parameter optimization for nano finishing of fused silica using magnetorheological finishing process. Optik, 2021, 226.

Pan JS, Zheng K, Yan QS, et al. Optimization study on magnetorheological fluid components and process parameters of cluster magnetorheological finishing with dynamic magnetic field for sapphire substrates. Smart Mater Struct, 2020, 29(11): .

Jian VK, Ranjan P, Suri VK, et al. Chemo-mechanical magnetorheological finishing (CMMRF) of silicon for microelectronics applications. CIRP Ann Manuf Technol, 2010, 59(1): 323-328.

Sun SL, Lu JB, Yan QS. Technological experiment of cluster magnetorheological finishing of InP wafer with dynamic magnetic fields. Lubr Eng, 2021, 46(11): 40-45.

Chen XJ (2021) Research on plasma-assisted cluster magnetorheological finishing of single crystal SiC wafe. Dissertation, Guangdong University of Technology

Guo MJ, Luo H, Wang CB, et al. Experimental study on magnetorheological finishing using large polishing tool for zirconia ceramic plane. Surf Technol, 2018, 4(7): 28-34.

Xiao XL, Li GX, Mei HJ, et al. Polishing of silicon nitride ceramic balls by clustered magnetorheological finish. Micromachines, 2020, 11(3): 304.

Huang YP. The development prospect of modern optical processing technology and industry. China High Tech Enterp, 2015, 28: 1-2.

Li XZ, Xu JK, Tong L, et al. Study on the influence of amplitude on ultrasonic assisted grinding of hard and brittle materials. Mater Sci Forum, 2021, 1047: 57-61.

You K, Yan G, Luo X, et al. Advances in laser assisted machining of hard and brittle materials. J Manuf Process, 2020, 58: 677-692.

Xiong H, Luo YP, Wang WC, et al. Effect of surfactants with different HLB values on settling stability of magnetorheological fluid. Funct Mater, 2019, 50(12): 12126-12131.

Shu LF, Ni L, Xiang BP, et al. Effect of nonionic surfactant on the stability of water-based magnetorheological polishing. J Magn Mater Devices, 2021, 52(5): 73-78.

Yang J, Yan H, Hu Z, et al. Viscosity and sedimentation behaviors of the magnetorheological suspensions with oleic acid/dimer acid as surfactants. J Magn Magn Mater, 2016, 417: 214-221.

Niu FH, Hu ZD, Yan H, et al. Rheological properties of magnetorheological suspensions with PMMA/oleic acid as surfactants. Chem Ind Eng Prog, 2018, 37(5): 1888-1895.

Song KH, Park BJ, Choi HJ. Effect of magnetic nanoparticle additive on characteristics of magnetorheological fluid. IEEE Ttans Magn, 2009, 45(10): 4045-4048.

Piao SH, Chae HS, Choi HJ. Carbonyl iron suspension with core-shell structured Fe₃O₄@ SiO₂ nanoparticle additives and its magnetorheological property. IEEE Trans Magn, 2015, 51(11): 1-4.

Guo QY, Wang J, Ouyang Q. Effect of SiO₂ with different specific surface areas on rheological properties and sedimentation stability of magnetorheological fluid. Mater Mech Eng, 2018, 42(10): 8-12.

Xiao Q, Wang JQ, Jin LP. Research progress of key technology and process of magnetorheological polishing. Mater Rep, 2022, 36(07): 65-74.

Zhu XL, Sun HM, Liu NN, et al. Effect of magnetorheological fluids with different volume fractions on shear properties. Sci Technol Eng, 2019, 19(14): 183-186.

Xiao LJ, Wang CP, Wei J, et al. Experimental analysis of shear properties of magnetorheological fluids under magnetic fields. J Mater Sci Eng, 2017, 35(4): 659-622+688.

Ginder JM, Davis LC. Shear stress in magnetorheological fluids: role of magnetic saturation. Appl Phys Lett, 1994, 65(26): 3410-3412.

Zhao PH, Li XG, Tong Y, et al. Effect of the interface between magnetic particles and carrier liquids on magnetorheological properties and sedimentation of magnetorheological fluids: a molecular dynamics simulation and experimental insights. J Mol Liq, 2021, 342.

Zhu YS, Gong XL, Li H, et al. Numerical analysis on shear yield stress of magnetorheological fluids. J China Univ Min Technol, 2006, 35(7): 498-503.

Li LX (2022) Magnetorheological effect and sedimentation stability of ionic liquid-modified silicone oil-based magnetorheological fluid. Dissertation, Dalian University of Technology

Bai Y (2015) Preparation of MR polishing fluid and study on the stability of removal function. Dissertation, University of Chinese Academy of Sciences

Bai Y, Zhang F, Deng WJ, et al. Preparation of magnetorheological polishing fluid and its polishing stability. Acta Opt Sin, 2014, 34(4): 185-192.

Markus S, Elmar P, Andreas G, et al. Comparison of different magnetorheological polishing fluids. SPIE, 2005, 5965.

Li LX, Liu ZY, Xue DL, et al. Rapid fabrication of a lightweight 2 m reaction-bonded SiC aspherical mirror. Results Phys, 2018, 10: 903-912.

Li LX, Zheng LG, Deng WJ, et al. Optimized dwell time algorithm in magnetorheological finishing. Int J Adv Manuf Technol, 2015, 81(5): 833-841.

Shi F, Dai YF, Peng XQ, et al. Magnetorheological finishing for high-precision optical surface. Opt Precis Eng, 2009, 17(8): 1859-1864.

Wang F, Feng ZJ, Cheng HB. Renewable magnetorheological finishing tool combined self-rotation and co-rotation movement. J Tsinghua Univ (Sci Technol), 2006, 2: 184-186.

Shu LF (2022) Design and performance study of arm type magnetorheological polishing machine and magnetorheological polishing fluid. Dissertation, Southwest University of Science and Technology

Miao CL, Shaffir SN, Lambropoulos JC, et al. Shear stress in magnetorheological finishing for glasses. Appl Opt, 2009, 48(13): 2585-2594.

Miao CL, Lambropoulos JC, Jacobs SD. Process parameter effects on material removal in magnetorheological finishing of borosilicate glass. Appl Opt, 2010, 49(10): 1951-1963.

Sidpara A, Jain VK. Theoretical analysis of forces in magnetorheological fluidbased finishing process. Int J Mech Sci, 2012, 56(1): 50-59.

Liu J, Li X, Zhang Y, et al. Predicting the material removal rate (MRR) in surface magnetorheological finishing (MRF) based on the synergistic effect of pressure and shear stress. Appl Surf Sci, 2020, 504.

Liu SW, Wang HX, Zhang QH, et al. Regionalized modeling approach of tool influence function in magnetorheological finishing process for aspherical optics. Optik, 2020, 206.

Bai Y, Zhang X, Yang C, et al. Material removal model of magnetorheological finishing based on dense granular flow theory. Light Adv Manuf, 2022, 3: 1-10.

Schinhaerl M, Smith G, Stamp R, et al. Mathematical modelling of influence functions in computer-controlled polishing: Part II. Appl Math Model, 2008, 32(12): 2907-2924.

Guo HR, Wu YB, Li YG, et al. Technical performance of zirconia-coated carbonyl-iron-particles based magnetic compound fluid slurry in ultrafine polishing of PMMA. Key Eng Mater, 2012, 523(524): 161-166.

Chen H, Chen J, Wang B et al (2016) Normal contour error measurement on-machine and compensation method for polishing complex surface by MRF. In: The 8th international symposium on advanced optical manufacturing and testing technologies, Proc SPIE, vol 9683, pp 226–236

Schinhaerl M, Schneider F, Rascher R et al (2010) Relationship between influence function accuracy and polishing quality in magnetorheological finishing. In: The 5th international symposium on advanced optical manufacturing and testing technologies, Proc SPIE, vol 7655, pp 234–243

Xu C, Hu H, Peng XQ, et al. Optimization of magnetorheological finishing process for aluminum mirror with complex surface. Acta Aeronaut Astron Sin, 2021, 42(10): 267-276.

Peng XQ, Dai YF, Li SY, et al. Dwell time algorithm for mrf of axis-symmetrical aspherical parts. J Natl Univ Defense Technol, 2004, 3: 89-92.

Hu H, Peng XQ, Dai YF, et al. Algorithm and implementation of magnetorheological finishing with spiral scan mode. J Natl Univ Defense Technol, 2009, 31(4): 5-9.

Zhang YF, Wang Y, Wang YJ, et al. Dwell time algorithm based on optimization theory for magnetorheological finishing. J Appl Opt, 2010, 31(4): 657-662.

Li LX, Zheng LG, Deng WJ, et al. Magnetorheological finishing for curve surface based on 4-axis machine. Opt Precis Eng, 2015, 23(10): 2819-2826.

Qian DB, Jiang C, Yao L, et al. The error analysis and simulation of magnetic compound fluid polishing for aspheric components. Opt Instrum, 2019, 41(5): 59-64.

Huang T, Zhao D, Cao Z. Trajectory planning of optical polishing based on optimized implementation of dwell time. Precis Eng, 2020, 62: 223-231.

Gao B, Wang J, Fan B, et al. Particle swarm optimization algorithm for dwell time of optical element in magnetorheological finishing. Semicond Optoelectron, 2023, 44(3): 395-399.

Li LX, Deng WJ, Zhang BZ, et al. Dwell time algorithm for large aperture optical element in magnetorheological finishing. Acta Opt Sin, 2014, 34(05): 217-223.

Cheng RM, Li LX, Li XC, et al. High-precision magnetorheological finishing based on robot by measuring and compensating trajectory error. Opt Express, 2022, 30(25): 44741-44768.

Song C, Dai YF, Peng XQ, et al. Post processing for magnetorheological finishing of optical mirrors. Opt Precis Eng, 2010, 18(8): 1715-1721.

Song C, Dai Y, Peng X. Model and algorithm based on accurate realization of dwell time in magnetorheological finishing. Appl Opt, 2010, 49(19): 3676-3683.

Dong ZC, Cheng HB, Tam HY. Modified dwell time optimization model and its applications in subaperture polishing. Appl Opt, 2014, 53(15): 3213-3224.

Byung CK, Jae HC, Myeong WC, et al. Magnetorheological fluid polishing using an electromagnet with staight pole-piece for improving material removal rate. J Mech Sci Technol, 2018, 32(7): 3345-3350.

Liu ZJ, Li ZY, Wang Z, et al. Research on the subsurface damage during finishing for optics. Aviat Precis Manuf Technol, 2008, 44(5): 1-3, 16.

Shi F, Qiao S, Tian Y, et al. The generation mechanism and suppression method of the "comet tail" defect on the single-crystal silicon surface polishing with magnetorheological. Ceram Int, 2022, 48(12): 17621-17631.

Xu L, Wang L, Chen HY, et al. Research progress in ultra-precision polishing of tungsten and its alloys. Surf Technol, 2022, 51(04): 24-36.

Pan JS, Yan QS, Xu XP, et al. Cluster magnetorheological effect plane polishing on SiC single crystal slice. China Mech Eng, 2013, 24(18): 2495-2499.

Pan JS, Guo ML, Yan QS, et al. Research on material removal model and processing parameters of cluster magnetorheological finishing with dynamic magnetic fields. Int J Adv Manuf Technol, 2019, 100(9/12): 2283-2297.

Guo ML, Yan QS, Pan JS, et al. Mechanism and experimental study of cluster magnetorheological polishing with dynamic magnetic. Diam Abras Eng, 2018, 38(1): 89-93+97.

Yan QS, Liao BT, Lu JB, et al. Experimental study on cluster magnetorheological variable gap dynamic pressure planarization finishing. J Mech Eng, 2021, 57(19): 230-238.

Luo B, Yan QS, Pan JS, et al. Uniformity of cluster magnetorheological finishing with dynamic magnetic fields formed by multi-magnetic rotating poles based on the cluster principle. Int J Adv Manuf Technol, 2020, 107(1/2): 919-934.

Luo B, Yan QS, Cai JF, et al. An ultra-smooth planarization method for controlling fluid behavior in cluster magnetorheological finishing based on computational fluid dynamics. Precis Eng, 2022, 74: 358-368.

Lu MM, Zhuang XL, Zhou JK, et al. A novel reciprocating cluster magnetorheological polishing device: design and investigation of removal model. Proc Inst Mech Eng B J Eng, 2022, 237(9): 1339-1352.

Wu ZC, Yan QS, Bai ZW, et al. Ultra-smooth polishing research based on the cluster magnetorheological effect. Key Eng Mater, 2011, 487: 283-288.

Pan JS, Yan QS. Material removal mechanism of cluster magnetorheological effect in plane polishing. Int J Adv Manuf Technol, 2015, 81: 2017-2026.

Pan JS, Yu P, Yan QS. Experimental investigations on the polishing forces characteristics of dynamic magnetic field magnetorheological effect polishing pad. J Mech Eng, 2018, 54(6): 10-17.

Yan QS, Cai ZH, Pan JS, et al. Process and mechanism of magnetorheological variable gap dynamic pressure planarization finishing. Diam Abras Eng, 2022, 42(4): 488-494.

Luo B, Yan QS, Cai JF, et al. Theoretical and experimental research into a novel method of cluster magnetorheological finishing based on a circular array polishing disk. Int J Adv Manuf Technol, 2022, 121(9/10): 6535-6550.

Luo B, Yan QS, Pan JS, et al. Simulation and experimental research on magnetorheological finishing under dynamic pressure with a gap-varying. J Manuf Process, 2022, 82: 265-276.

Yan QS, Liang ZB, Pan JS, et al. Modeling optimization and uniformity of cluster magnetorheological polishing via magnetic trajectory intensity in machining surface. Surf Technol, 2022, 51(12): 243-254.

Zhuang XL, Lu MM, Zhou JK, et al. Improved magnetorheological finishing process with arc magnet for borosilicate glass. Mater Manuf Process, 2022, 37(4): 458-466.

Zhang LM, Li WX, Zhou JK, et al. Removal modeling and experimental verification of magnetorheological polishing fused silica glass. Micromachines, 2023, 14(1): 54.

Yan QS, Tang AJ, Lu JB, et al. An experimental study of planarization technique with instantaneous tiny grinding wheel cluster based on magnetorheological effect. Diam Abras Eng, 2008, 5: 66-70.

Bai ZW, Yan QS, Lu JB, et al. Research on abrasive accommodate-sinking effect of cluster MR-effect polishing pad. China Mech Eng, 2014, 25(20): 2705-2710.

Bai ZW, Yan QS, Lu JB, et al. Parametric investigation into accommodate-sinking effect of cluster magnetorheological effect pad. Int J Adv Manuf Technol, 2014, 75(9/12): 1447-1456.

Pan JS, Yu P, Yan JS, et al. An experimental analysis of strontium titanate ceramic substrates polished by magnetorheological finishing with dynamic magnetic fields formed by rotating magnetic poles. Smart Mater Struct, 2017, 26(5): 1-14.

Yan QS, Xu SP, Lu JB, et al. Study on chemical reaction parameters of CMP solution for single-crystal SiC. Mach Des Manuf, 2017, 9: 98-100.

Liang HZ, Lu JB, Pa JS, et al. Material removal process of sing-crystal SiC in chemical-magnetorheological compound finishing. Int J Adv Manuf Technol, 2018, 94(5/8): 2939-2948.

Sidpara A, Jain VK. Nanofinishing of freeform surfaces of prosthetic knee joint implant. Proc Inst Mech Eng B J Eng, 2012, 226(11): 1833-1846.

Yin SH, Xu ZQ, Chen FJ, et al. Inclined axis magnetorheological finishing technology for small aspherical surface. J Mech Eng, 2013, 49(17): 33-38.

Xu ZQ, Yin SH, Chen FJ, et al. Combined process of ultra-precision turning and polishing technology for small aspheric surface. Nanotechnol Precis Eng, 2013, 11(6): 479-484.

Yin SH, Gong S, He BW, et al. Development on synergistic process and machine tools integrated inclined axis grinding and magnetorheological polishing for small aspheric surface. J Mech Eng, 2018, 54(21): 205-211.

Wang HJ, Zhang FH, Zhao H, et al. Effect of several processing parameters on material removal ratio in ultrasonic-magnetorheological compound finishing. Opt Precis Eng, 2007, 15(10): 1583-1588.

Wang HJ, Zhang FH, Zhao H, et al. Study on optical polishing of optical glass by means of ultrasonic-magnetorheological compound finishing. Proc SPIE Int Soc Opt Eng, 2007, 6722: 67221P-1.

Wang HJ (2007) Research on the key technologies of ultrasonic-magnetorheological compound finishing. Dissertation, Harbin Institute of Technology

Zafar A, Sunil J. Modeling of surface roughness in ball end magnetorheological finishing (BEMRF) process. Wear, 2017, 374(375): 54-62.

Xu J, Li D, Chen MJ, et al. Process research of magnetorheological finishing with a small permanent magnet ball-end tool. Nanotechnol Precis Eng, 2015, 13(4): 244-250.

Chen MJ, Liu HN, Cheng J, et al. Model of the material removal function and an experimental study on a magnetorheological finishing process using a small ball-end permanent-magnet polishing head. Appl Opt, 2017, 56(19): 5573-5582.

Wang HJ, Zhang FH, Luan DR. Research on material removal of ultrasonic-magnetorheological compound finishing. Int J Mach Mach Mater, 2007, 2(1): 50-58.

Liu YM, Feng J, Gu Y, et al. Research on numerical simulation of composite materials vibration assisted polishing. Mech Eng, 2020, 3: 25-29.

Singh AK, Jha S, Pandey PM. Performance analysis of ball end magnetorheological finishing process with MR polishing fluid. Mater Manuf Process, 2015, 30(12): 1482-1489.

Singh G, Singh AK, Garg P. Development of magnetorheological finishing process for external cylindrical surfaces. Mater Manuf Process, 2017, 32(5): 581-588.

Kansal H, Singh AK, Grover V. Magnetorheological nano-finishing of diamagnetic material using permanent magnets tool. Precis Eng, 2018, 51: 30-39.

Bedi TS, Singh AK. Development of magnetorheological fluid-based process for finishing of ferromagnetic cylindrical workpiece. Mach Sci Technol, 2018, 22(1): 120-146.

Kumar S, Singh AK. Nanofinishing of BK7 glass using a magnetorheological solid rotating core tool. Appl Opt, 2018, 57(4): 942-951.

Sidpara A, Jain VK. Analysis of forces on the freeform surface in magnetorheological fluid based finishing process. Int J Mach Tool Manuf, 2013, 69: 1-10.

Tian JC, Chen MJ, Liu HN, et al. Study on mechanism of improving efciency of permanent-magnet small ball-end magnetorheological polishing by increasing magnet-orheological fuid temperature. Sci Rep, 2022, 12: 7705.

Singh H, Niranjan MS, Wattal R. Experimental investigation into residual stress in ball end magnetorheological finishing. J Eng Res, 2022, 10: 82-94.

Singh H, Niranjan MS, Wattal R. A study for the nanofinishing of an EN-31 workpiece with pulse DC power supply using ball-end magnetorheological finishing. Stroj Vestn J Mech E, 2020, 66(7/8): 449-457.

Mayank S, Pulak MP. The influence of ultrasonic vibrations on material removal in the silicon wafer polishing using DDCAMRF: experimental investigations and process optimization. Proc Inst Mech Eng C J Mech, 2021, 236(6): 3198-3215.

Hu JF (2018) Research on polishing zirconia ceramic with magnetorheological finishing-ultrasoniccomposite technology. Dissertation, Changchun University of Technology

Lqbal F, Alam Z, Khan DA, et al. Automated insular surface finishing by ball end magnetorheological finishing process. Mater Manuf Process, 2022, 37(4): 437-447.

Yin SH, Wang YQ, Xu ZQ et al (2015) A surface contact magnetorheological plane polishing device and method with uniform magnetic field excitation. China Patent 103273385B

Yin SH, Wang YQ, Deng GJ, et al. Effects of permanent magnet excitation on material removal rate in area taking magnetorhelogical finishing. Adv Mater Res, 2013, 797: 401-404.

Wu JZ, Yin SH, Yang SJ, et al. Study on magnetorheological nano-polishing using low-frequency alternating magnetic field. Adv Mech Eng, 2022, 12(1): 1-11.

Hu H, Li SY, Guan F et al (2017) Disc type magnetorheological polishing device. China Patent 201710085353.X

Guan F, Hu H, Li SY, et al. A novel lap-MRF method for large aperture mirrors. Int J Adv Manuf Technol, 2018, 95(9/12): 1-13.

Wang YQ, Yin SH, Li YP, et al. Effects of translational movement on surface planarity in magnetorheological planarization process. J Mech Eng, 2017, 53(1): 206-214.

Guan F, Hu H, Li SY, et al. Analysis of material removal rate and stability in lap-magnetorheological finishing. Opt Eng, 2018, 57(5): .

Luo H (2019) Study on damage generation mechanism and process of planar magnetorheological finishing using large polishing tool. Dissertation, Hunan University

Wang YQ (2016) Study on Magnetorheological finishing using large polishing tool for ultra-smooth flat surface. Dissertation, Hunan University

Wang YQ, Yin SH, Huang H. Polishing characteristics and mechanism in magnetorheological planarization using a permanent magnetic yoke with translational movement. Precis Eng, 2016, 43: 93-104.

Yang ZQ, Li H, Guo ZD. Study on magnetorheological chemico-mechanical polishing technique for sapphire. J Xi’an Technol Univ, 2019, 39(3): 266-272.

Yin SH, Wang YQ, Li YP, et al. Experimental study on magnetorheological chemical polishing for sapphire substrate. J Mech Eng, 2016, 52(5): 80-87.

Sirwal SA, Singh AK. Analysis of the surface roughness for novel magnetorheological finishing of a typical blind hole workpiece. Proc Inst Mech Eng C J Mech, 2018, 233(5): 1541-1561.

Talwinder SB, Anant KS. An initial new approach for magnetorheological finishing of ferromagnetic internal cylindrical surfaces. Int J Adv Manuf Technol, 2019, 100(5/8): 1017-1030.

Aggarwal A, Singh AK. Development of grinding wheel type magnetorheological finishing process for blind hole surfaces. Mater Manuf Process, 2021, 36(4): 457-478.

Aggarwal A, Singh AK. Experimental investigation for fine finishing of the tapered mould cavity using a newly developed GWMRF process. J Braz Soc Mech Sci, 2021, 43(9): 444.

Sirwal SA, Singh AK. Analysis of the surface roughness for novel magnetorheological finishing of a typical blind hole workpiece. Proc Inst Mech Eng C J Mech, 2019, 233(5): 1541-1561.

Sunil KP, Auant KS. Analysis of finishing performance in rotating magnetorheological honing process with the effect of particles motion. Proc Inst Mech Eng E J Process, 2021, 235(4): 1104-1118.

Yahya C, Mohammad RR, Mohsen K, et al. Design and development of ultrasonic assisted-rotational magnetorheological abrasive flow finishing (UA-RMRAFF) process. Appl Acoust, 2022, 197.

Luo X, Ren K, Hu HF et al (2014) Magnetorheological polishing device for ultra large diameter optical processing. China Patent CN201410120264.0

Ren K, Luo X, Zheng LG, et al. Belt-MRF for large aperture mirrors. Opt Express, 2014, 22(16): 19262-19276.

Wang DK (2018) Study on the key technologies of belt magnetorheological finishing. Dissertation, University of Chinese Academy of Sciences

Li SQ (2015) Study on the reciprocating magnetorheological polishing experimental machine and preparation and property of polishing fluid. Dissertation, Northeastern University

Ma HX (2017) Study on particle movement trajectories and process parameters optimization for reciprocating magnetorheological polishing. Dissertation, Northeastern University

Wang RS, Xiu SC, Sun C, et al. Study on material removal model by reciprocating magnetorheological polishing. Micromachines, 2021, 12(4): 413.

Wang RS, Sun C, Xiu SC, et al. Experimental study on reciprocating magnetorheological polishing. Ind Lubr Tribol, 2022, 74(2): 164-170.

Wang RS, Sun C, Xiu SC. Study of machining parameters in reciprocating magnetorheological polishing process based on response surface methodology. Ind Lubr Tribol, 2022, 74(9): 1007-1014.