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Laser & Optoelectronics Progress, Volume. 62, Issue 15, 1522001(2025)

Process Method of Small-Tool Polishing for Mid-Spatial Frequency Error Smoothing of Conical Surface Component

Hang Fang1, Yuchuan Chen2, Lin Zhang2, Ye Ding1, Kailong Li2, Kuo Hai2, and Yunfei Zhang2、*
Author Affiliations
  • 1School of Mechanical Engineering, Shanghai Jiao Tong University, Shanghai 200204, China
  • 2Sichuan Precision and Ultra-Precision Machining Engineering Technology Center, Chengdu 610200, Sichuan , China
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    References(16)

    [1] Ren J, Li S C, Li H et al. Annular laser beam reshaping based on dual axicons[J]. Laser Technology, 42, 104-107(2018).

    [2] Zhao Y Y, Ye Y D, Yang J L et al. Hollow beam shaper based on axicon lens group[J]. Acta Optica Sinica, 44, 0422004(2024).

    [3] Mehta P K, Reid P B. Mathematical model for optical smoothing prediction of high-spatial-frequency surface errors[J]. Proceedings of SPIE, 3786, 447-459(1999).

    [4] Tuell M T. Aspheric optics: smoothing the ripples with semi-flexible tools[J]. Optical Engineering, 41, 1473-1474(2002).

    [5] Kim D W, Burge J H. Rigid conformal polishing tool using non-linear visco-elastic effect[J]. Optics Express, 18, 2242-2257(2010).

    [6] Han Y, Wu F, Wan Y J et al. Research on mid-frequency errors smoothing with a passive semi-rigid lap[J]. High Power Laser and Particle Beams, 22, 319-322(2010).

    [7] Zhang S, Wang J, Wang Z Y et al. Research on active smoothing technology of high gradient and deep optical elements[J]. Semiconductor Optoelectronics, 43, 358-362(2022).

    [8] Lai L W, Liu Z G, Jiao X et al. Suppression of mid-spatial-frequency errors in optical elements by polishing with compound swing multi-link mechanism[J]. Chinese Journal of Lasers, 46, 1102001(2019).

    [9] Dong Z M, Zhang Y N, Liu Z G et al. Eccentric dual-rotor polishing and the suppression of mid-spatial-frequency error: technological study[J]. Chinese Journal of Lasers, 48, 2404002(2021).

    [10] Lei P L, Hou J, Wang J et al. Smoothing of mid-spatial frequency errors by computer controlled surface processing[J]. High Power Laser and Particle Beams, 31, 190177(2019).

    [11] Zang Y K, Zhu B B, Qin L et al. Modeling of removal function and optimization of process parameters for robotic polishing M-ZnS[J]. Optics and Precision Engineering, 32, 2387-2400(2024).

    [12] Li Q X. Research on design and polishing process of new wheel polishing device[D](2019).

    [13] Wang T Y, Ke X L, Huang L et al. A comprehensive review of dwell time optimization methods in computer-controlled optical surfacing[J]. Light: Advanced Manufacturing, 5, 422-451(2024).

    [14] Li Z L, Wang R, Zhang X Q et al. B-spline surface approximation method for achieving optimum dwell time in deterministic polishing[J]. Journal of Materials Processing Technology, 318, 118031(2023).

    [15] Zhu Y H, Zhang S W, Zhi C Y et al. Research on rapid design technology of cabin products based on SQP algorithm[J]. Journal of Machine Design, 41, 64-69(2024).

    [16] Zhang S. Research on the key technology of active smoothing of middle spatial frequency errors of high gradient and deep aspheric surface[D](2022).

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    Hang Fang, Yuchuan Chen, Lin Zhang, Ye Ding, Kailong Li, Kuo Hai, Yunfei Zhang. Process Method of Small-Tool Polishing for Mid-Spatial Frequency Error Smoothing of Conical Surface Component[J]. Laser & Optoelectronics Progress, 2025, 62(15): 1522001

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    Paper Information

    Category: Optical Design and Fabrication

    Received: Nov. 25, 2024

    Accepted: Jan. 6, 2025

    Published Online: Jul. 2, 2025

    The Author Email: Yunfei Zhang (zhangyf306@yeah.net)

    DOI:10.3788/LOP242316

    CSTR:32186.14.LOP242316

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology