FRICTION-INDUCED LIMIT CYCLING IN FLEXIBLE ROTOR SYSTEMS: AN EXPERIMENTAL DRILL-STRING SYSTEM

机译：挠性转子系统中的摩擦诱导极限循环：一种实验性的钻柱传动系统

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Friction-induced limit cycling deteriorates system performance in a wide variety of mechanical systems. In this paper, we study the way in which essential friction characteristics affect the occurrence and nature of friction-induced limit cycling in flexible rotor systems. This study is performed on the level of both numerical and experimental bifurcation analyses. Hereto, an experimental drill-string set-up is used. The synthesis of these numerical and experimental results confirms that friction-induced limit cycling is due to a subtle balance between a velocity weakening characteristic of the friction (Stribeck effect) at lower velocities and viscous friction at higher velocities. Moreover, it is shown how these essential friction characteristics depend on physical conditions such as temperature and normal forces in the frictional contact in the experimental set-up.

机译：摩擦引起的极限循环会降低各种机械系统的系统性能。在本文中，我们研究了基本摩擦特性如何影响柔性转子系统中摩擦引起的极限循环的发生和性质。这项研究是在数值和实验分叉分析的水平上进行的。迄今为止，使用了实验钻柱设置。这些数值和实验结果的综合证实，摩擦引起的极限循环是由于较低速度时的摩擦速度减弱特性（Stribeck效应）和较高速度时的粘滞摩擦之间的微妙平衡所致。此外，还显示了这些基本的摩擦特性如何取决于物理条件，例如温度和实验装置中摩擦接触中的法向力。

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《ASME(American Society of Mechanical Engineers) International Design Engineering Technical Conferences and Computers and Information in Engineering Conference 2005(DETC2005) vol.1: 20th Biennial Conference on Mechanical Vibration and Noise pt.B》|2005年|P.1289-1298|共10页
会议地点 Long BeachCA(US)
作者
N. van de Wouw; H. Nijmeijer; N. Mihajlovic;
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Eindhoven University of Technology, Department of Mechanical Engineering, P.O. Box 513, 5600 MB Eindhoven, The Netherlands;

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原文格式 PDF
正文语种 eng
中图分类工业设计;计算技术、计算机技术;
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专利

1. Friction-induced limit cycling in flexible rotor systems: An experimental drill-string set-up [J] . Mihajlovic N, van de Wouw N, Hendriks MPM, Nonlinear dynamics . 2006,第3期

机译：挠性转子系统中的摩擦引起的极限循环：实验性钻柱设置
2. Analysis of friction-induced limit cycling in an experimental drill-string system [J] . Mihajlovic N, van Veggel AA, van de Wouw N, Journal of Dynamic Systems, Measurement, and Control . 2004,第4期

机译：实验钻柱系统中的摩擦引起的极限循环分析
3. Characterization and quenching of friction-induced limit cycles of electro-hydraulic servovalve control systems with transport delay [J] . Yuan-Jay Wang ISA Transactions . 2010,第4期

机译：具有传输延迟的电动液压伺服阀控制系统的摩擦感应极限环的表征和淬火
4. FRICTION-INDUCED LIMIT CYCLING IN FLEXIBLE ROTOR SYSTEMS: AN EXPERIMENTAL DRILL-STRING SYSTEM [C] . N. van de Wouw, H. Nijmeijer, N. Mihajlovic, ASME International Design Engineering Technical . 2005

机译：柔性转子系统中摩擦诱导的极限循环：实验钻柱系统
5. Theoretical and experimental study of a motor-flexible coupling-rotor system subject to misalignment and unbalance. [D] . Xu, Ming. 1992

机译：具有挠性和不平衡性的机动挠性联轴器-转子系统的理论和实验研究。
6. Limit Cycles of Systems of the Second Order [O] . G. F. D. Duff 1950

机译：二阶系统的极限环
7. Friction-induced limit cycling in flexible rotor systems : an experimental drill-string set-up [O] . Mihajlovic, N Nenad, Wouw, van de, N Nathan, Hendriks, MPM Maarten, 2006

机译：挠性转子系统中的摩擦引起的极限循环：实验性钻柱设置

FRICTION-INDUCED LIMIT CYCLING IN FLEXIBLE ROTOR SYSTEMS: AN EXPERIMENTAL DRILL-STRING SYSTEM

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