Numerical analysis of discharge coefficients in aerostatic bearings with orifice-type restrictors

Chang S. H.; Chan C. W.; Jeng Y. R.

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Numerical analysis of discharge coefficients in aerostatic bearings with orifice-type restrictors

机译：带节流型节流轴承的排气系数数值分析

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Determining film pressure by solving the Reynolds equation is more effective than conducting bearing experiments or computational fluid dynamics simulations. The Reynolds equation can be solved easily in a numerical model; however, the accuracy of each model is dominated by the orifice discharge coefficient. This study compared two orifice flow models in inherent orifice restrictors and investigated the influences of geometry and flow parameters on the discharge coefficient. The results indicate that both orifice flow models can be used in inherent orifice restrictors, and the discharge coefficient of orifice-type restrictors is sensitive to the orifice diameter and film thickness. (C) 2015 Elsevier Ltd. All rights reserved.

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《Tribology International》 |2015年第null期|共7页
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Chang S. H.; Chan C. W.; Jeng Y. R.;
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正文语种 eng
中图分类机械摩擦、磨损与润滑;
关键词
Aerostatic bearing; Discharge coefficient; Orifice-type restrictor;

机译：空气静压轴承;流量系数;离心式限流器;

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1. Numerical analysis of discharge coefficients in aerostatic bearings with orifice-type restrictors [J] . Chang S. H., Chan C. W., Jeng Y. R. Tribology International . 2015,第Null期

机译：带节流型节流轴承的排气系数数值分析
2. Discharge coefficients of orifice-type restrictor for aerostatic bearings [J] . G. Belforte, T. Raparelli, V. Viktorov, Tribology International . 2007,第3期

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Numerical analysis of discharge coefficients in aerostatic bearings with orifice-type restrictors

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