动静压耦合效应下气体轴承流场特性分析
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摘要
为研究静压气体轴承的动静压耦合效应机制及其对流场压力分布、承载力等特性的影响,以高速静压气体轴承为研究对象,采用CFD数值仿真方法,在不同偏心率及转速条件下对流场特性、动静压耦合效应机制、承载力以及偏心角进行分析研究。研究表明:转速和偏心率变化导致的气体黏性力、压差流和气体可压缩性变化,影响流场动静压耦合效应的强度,且造成流场的周向压力分布不对称,进而导致承载力及偏心角的变化;在相同偏心率下,承载力随转速升高而单调递增,偏心角随转速升高呈现非线性变化规律;在相同转速下,当转子保持在低速范围内时,偏心角随偏心率增大而增大,高速时则相反。
To study the effects of hydrodynamic and hydrostatic coupling effect on pressure distribution and load capacity of hydrostatic gas bearing,the flow field characteristic,coupling effect of hybrid gas bearing,bearing capacity,attitude angle were analyzed by Computational Fluid Dynamics(CFD) under different rotating speed and eccentricity ratio,by taking the high-speed hydrostatic gas bearing as research objective.The results show that the change of the gas viscous force,differential pressure flow and gas compressibility caused by rotating speed and eccentricity ratio influences the strength of hydrodynamic and hydrostatic coupling effect,causes the asymmetric distribution of circumferential pressure of flow fields,and the change of force and attitude angles.At the same eccentricity rate,the bearing capacity is increased with the increasing of the rotating speed,and the attitude angle is first increased and then decreased.At the same rotating speed,when the rotor is kept in a low speed range,the attitude angle is increased with the increasing of the eccentricity,while it is opposite at high speed.
To study the effects of hydrodynamic and hydrostatic coupling effect on pressure distribution and load capacity of hydrostatic gas bearing,the flow field characteristic,coupling effect of hybrid gas bearing,bearing capacity,attitude angle were analyzed by Computational Fluid Dynamics(CFD) under different rotating speed and eccentricity ratio,by taking the high-speed hydrostatic gas bearing as research objective.The results show that the change of the gas viscous force,differential pressure flow and gas compressibility caused by rotating speed and eccentricity ratio influences the strength of hydrodynamic and hydrostatic coupling effect,causes the asymmetric distribution of circumferential pressure of flow fields,and the change of force and attitude angles.At the same eccentricity rate,the bearing capacity is increased with the increasing of the rotating speed,and the attitude angle is first increased and then decreased.At the same rotating speed,when the rotor is kept in a low speed range,the attitude angle is increased with the increasing of the eccentricity,while it is opposite at high speed.
引文
【1】 张广辉.高速动静压混合气体轴承转子系统动力学特性研究[D].哈尔滨:哈尔滨工业大学,2010.
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【4】 于贺春.高速静压气体轴承一转子系统的特性研究[D].大连:大连海事大学,2011.
【5】 杨文勇,马平.空气静压轴承动刚度有限元非线性分析[J].机电工程技术,2008(2):13-15.YANG W Y,MA P.Finite element analysis of stiffness of the static air bearing[J].Mechanical & Electrical Engineering Technology,2008(2):13-15.
【6】 高思煜.超高转速空气静压电主轴特性分析与实验[D].哈尔滨:哈尔滨工业大学,2016.
【7】 LO C Y,WANG C C,LEE Y H.Performance analysis of high-speed spindle aerostatic bearings[J].Tribology International,2005,38(1):5-14.
【8】 SU J C,LIE K N.Rotation effects on hybrid air journal bearings[J].Tribology International,2003,36(10):717-726.
【9】 于贺春,王广洲,张国庆,等.新型微孔节流气体静压轴承的特性研究[J].机床与液压,2018,46(5):59-63.YU H C,WANG G Z,ZHANG G Q,et al.Study in static characteristics of new type micro orifice restrictor thrust aerostatic bearings[J].Machine Tool & Hydraulics,2018,46(5):59-63.
【10】 于贺春,王广洲,王文博,等.基于Fluent的微孔节流气体静压止推轴承的参数设计与研究[J].机床与液压,2018,46(13):130-133.YU H C,WANG G Z,WANG W B,et al.Research on parameters design of micro-orifice restrictor aerostatic thrust bearings based on Fluent[J].Machine Tool & Hydraulics,2018,46(13):130-133.
【11】 周恒,刘延柱.气体动压轴承的原理及计算[M].北京:国防工业出版社,1981.
【2】 郝艾鹏,贾玉红.高速气浮轴承动静压耦合效应研究[J].润滑与密封,2012,37(11):39-44.HAO A P,JIA Y H.Research on hydrodynamic and hydrostatic coupling effect of high-speed air bearing[J].Lubrication Engineering,2012,37(11):39-44.
【3】 王彬.动静压混合轴承设计及油膜承载能力分析[D].沈阳:东北大学,2010.
【4】 于贺春.高速静压气体轴承一转子系统的特性研究[D].大连:大连海事大学,2011.
【5】 杨文勇,马平.空气静压轴承动刚度有限元非线性分析[J].机电工程技术,2008(2):13-15.YANG W Y,MA P.Finite element analysis of stiffness of the static air bearing[J].Mechanical & Electrical Engineering Technology,2008(2):13-15.
【6】 高思煜.超高转速空气静压电主轴特性分析与实验[D].哈尔滨:哈尔滨工业大学,2016.
【7】 LO C Y,WANG C C,LEE Y H.Performance analysis of high-speed spindle aerostatic bearings[J].Tribology International,2005,38(1):5-14.
【8】 SU J C,LIE K N.Rotation effects on hybrid air journal bearings[J].Tribology International,2003,36(10):717-726.
【9】 于贺春,王广洲,张国庆,等.新型微孔节流气体静压轴承的特性研究[J].机床与液压,2018,46(5):59-63.YU H C,WANG G Z,ZHANG G Q,et al.Study in static characteristics of new type micro orifice restrictor thrust aerostatic bearings[J].Machine Tool & Hydraulics,2018,46(5):59-63.
【10】 于贺春,王广洲,王文博,等.基于Fluent的微孔节流气体静压止推轴承的参数设计与研究[J].机床与液压,2018,46(13):130-133.YU H C,WANG G Z,WANG W B,et al.Research on parameters design of micro-orifice restrictor aerostatic thrust bearings based on Fluent[J].Machine Tool & Hydraulics,2018,46(13):130-133.
【11】 周恒,刘延柱.气体动压轴承的原理及计算[M].北京:国防工业出版社,1981.
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