全孔径平面快速抛光机多孔静压轴承的优化设计

International Conference on Photonics and Optical Engineering and the Annual West China Photonics Conference Pub Date : 2021-01-15 DOI:10.1117/12.2586832

Mingchen Cao, Huiying Zhao, R. Xie, Shenggen Zhu, Lingyu Zhao, Jinfeng Bai, D. Ma, Yuxuan Cao, Jianjun Chen

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引用次数: 0

摘要

全孔径快速平面抛光(RPP)设备在光学加工领域得到了广泛的应用，对抛光轴的精度和稳定性要求很高。空气静压轴承具有高稳定性和高精度的可持续性，是RPP机床的潜在技术。针对RPP机床的需求，利用Fluent软件对高精度空气静压轴承的承载特性进行了分析。基于仿真结果，对多孔气体静压轴承进行了参数优化设计，以获得更好的承载特性，包括承载能力、静刚度和耗气量。研究了供气压力、多孔材料厚度和气膜厚度对轴承特性的影响，并进行了仿真分析，得到了空气静压轴承的最佳设计参数。仿真结果表明，所设计的高精度空气静压轴承能够满足RPP机床的要求。

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Optimization design of porous aerostatic bearing for full aperture rapid planar polishing machine

Full aperture rapid planar polishing (RPP) equipment has been widely used in the field of optical processing, which requires high precision and stability of the polishing shaft. With high stability and sustainability of precision, the aerostatic bearing is the potential technology for RPP machine. To meet the needs of RPP machine, Fluent was used to analyze the load-bearing characteristics of high-precision aerostatic bearing. Based on the simulated results, the parameter optimization design for porous aerostatic bearing was conducted to get better load-bearing characteristics, including bearing capacity, static stiffness and gas consumption. The influence of air supply pressure, porous material thickness and film thickness on bearing characteristics were studied, and the simulation analysis was performed to get the optimal design parameters for aerostatic bearing. The simulated results show that the designed high-precision aerostatic bearing can satisfy the requirements of RPP machine.

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International Conference on Photonics and Optical Engineering and the Annual West China Photonics Conference

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