提出了动静压混合滑动轴承支承-转子运动轨迹的控制技术和方法,以期用于转子振动控制和非圆截面零件加工。
Based on active hybrid sliding bearing-rotor system, the control technique of the motion of the rotor was researched, which could be used for vibration control or non-circular machining.
提出了动静压混合滑动轴承支承-转子运动轨迹控制技术和方法,以期用于转子振动控制和非圆截面零件加工。
Based on active hybrid sliding bearing-rotor system, the control technique of the motion of the rotor was studied, which then was used for vibration control and non-circular machining.
针对动静压混合滑动轴承,分析了主动节流轴承的可控性,并提出以可控性系数来加以衡量。
The so-called controllability coefficients were proposed to analyze the controllability of an active hybrid sliding bearing.
对液膜轴承动压、静压和动静压混合状态下的径向滑动性能进行完整预测。
Predict the properties of journal bearing under dynamic pressure, static pressure and combination pressure.
对液膜轴承动压、静压和动静压混合状态下的径向滑动性能进行完整预测。
Predict the properties of journal bearing under dynamic pressure, static pressure and combination pressure.
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