1) Jeffcott rotor-magnetic bearing
磁浮轴承-Jeffcott转子
3) magnetic rotor-bearings system
磁浮轴承转子系统
1.
Based on the rigid non-linear single degree-offreedom magnetic rotor-bearings system,and with the simplicity,easy realization,practicality and technological maturity of piping and instruments diagram(PID) control method considered,the PID control of a factual magnetic rotor-bearings system is simulated with Matlab,and its dynamic performance curves in some parameter fields are arrivedat.
在刚性非线性单自由度磁浮轴承转子系统动力学模型的基础上,考虑到PID控制策略的简便、易实现、实用、技术成熟等优点,采用M atlab对一实际磁浮轴承转子系统实现了PID控制仿真,得到了系统在某些参数域中的动态性能曲线。
4) active magnetic bearing-rotor system
磁悬浮轴承-转子系统
1.
The nonlinear dynamical behaviours of an active magnetic bearing-rotor system were investigated by numerical simulation.
研究磁悬浮轴承-转子系统主共振情形时的非线性动力学行为。
5) Jeffcott rotor
Jeffcott转子
1.
The synchronous full annular rub motion of a Jeffcott rotor and its dynamic stability behaviour are studied analytically in detail.
对带不平衡量的Jeffcott转子,采用当量弹簧线性碰摩模型,进行了同步全周碰摩运动分析:寻找同步全周碰摩解的参数存在区,求出同步全周碰摩解的表达式,讨论同步全周碰摩解的稳定性,导出同步全周碰摩解稳定性判据,给出稳定区判据近似表达式。
2.
Taking the Jeffcott rotor as an example, the influence factors of rotor system with gas exciting force caused by blade tip clearance are discussed through Routh-Hurwitz rule.
以Jeffcott转子为例,利用Routh-Hurwitz准则讨论了叶轮偏心转子失稳的影响因素。
3.
The motion equations and eigen-equation of Jeffcott rotor immerged in large gap annular flow are derived,and the effects of parameters on eigenvalues in the system are analyzed.
建立了大间隙环流中Jeffcott转子系统运动方程和特征方程,分析了系统参数对特征值的影响。
6) non Jeffcott rotor
非Jeffcott转子
补充资料:磁流体轴承
用导电流体作润滑剂并有外加磁场的滑动轴承。磁流体轴承是 20世纪 60年代配合核动力设备而发展起来的新型轴承。常用的导电流体有:高温下多用熔融的钠、钾和钠钾共晶合金;在常温环境中则用水银。磁流体轴承与液体润滑的滑动轴承一样,可做成液体动压轴承和液体静压轴承,按结构型式分为圆柱径向轴承、平面推力轴承、球形轴承和锥形轴承等。图1为磁流体动压径向轴承,图2为磁流体静压推力轴承。磁场由永磁体或电磁线圈产生,磁场方向垂直于导电流体的流动方向。流体中的感生电流与磁场相互作用产生洛仑兹力,其大小与流体的导电率、速度和磁感应强度平方成正比,其方向与流体的流动方向相反,对流体的运动起阻滞作用,使流体的等效粘度成倍增加,从而大大地提高轴承的承载能力。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条