Study on wheeled polishing technology based on industrial robot

Yang Rui; Yun Yu; Liu Ziwei; Liu Chengxing; Wang Ansu; Xie Bin

doi:10.12086/oee.2018.170710

Journals >Opto-Electronic Engineering >Volume 45 >Issue 5 >Page 170710 > Article

Opto-Electronic Engineering
Vol. 45, Issue 5, 170710 (2018)

Study on wheeled polishing technology based on industrial robot

Yang Rui¹, Yun Yu¹, Liu Ziwei², Liu Chengxing¹, Wang Ansu², and Xie Bin²

Author Affiliations

¹[in Chinese]

²[in Chinese]

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DOI: 10.12086/oee.2018.170710 Cite this Article

Yang Rui, Yun Yu, Liu Ziwei, Liu Chengxing, Wang Ansu, Xie Bin. Study on wheeled polishing technology based on industrial robot[J]. Opto-Electronic Engineering, 2018, 45(5): 170710 Copy Citation Text

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References

[1] Yuan J L, Wu Z, Lv B H, et al. Review on ultra-precision polishing technology of aspheric surface[J]. Journal of Mechanical Engineering, 2012, 48(23): 167–177.

[2] Han C S, Dong S, Tang Y Y. Geometric model of the ultra- precision grinding of large optical aspheric surfaces[J]. Acta Armamentarii, 2004, 25(6): 741–745.

[3] Zhou X. The application of computer in automatic measure of the non-round degree of the parts[J]. Basic Automation, 2001, 8(6): 50–52.

[4] Zhang Y, Zhang X J, Li R G, et al. Design of an high-efficiency wheeled polishing tool combined with co-rotation and self-rotation movement[J]. Chinese Optics, 2016, 9(1): 199–166.

[5] Zheng L G, Zhang X J, Zhang F. NC surfacing of two off-axis aspheric mirrors[J]. Optics and Precision Engineering, 2004, 12(1): 113–117.

[6] Zhang L P, Yang H, Bao L X, et al. Optimization of dwell time algorithm for precession bonnet polishing[J]. Optics and Precision Engineering, 2014, 22(12): 3303–3309.

Yang Rui, Yun Yu, Liu Ziwei, Liu Chengxing, Wang Ansu, Xie Bin. Study on wheeled polishing technology based on industrial robot[J]. Opto-Electronic Engineering, 2018, 45(5): 170710

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