Glienicke, 1966 - Google Patents
Paper 13: Experimental investigation of the stiffness and damping coefficients of turbine bearings and their application to instability predictionGlienicke, 1966
- Document ID
- 11420021692396566573
- Author
- Glienicke J
- Publication year
- Publication venue
- Proceedings of the Institution of Mechanical Engineers, Conference Proceedings
External Links
Snippet
INTRODUCTION quently the cause of operational troubles, in which vibration amplitudes reach inadmissibly high levels. The two most important phenomena in such circumstances are the critical speed of rotation and self-excited vibrations (instability). Whereas the critical …
- 238000009114 investigational therapy 0 title description 9
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Glienicke | Paper 13: Experimental investigation of the stiffness and damping coefficients of turbine bearings and their application to instability prediction | |
| Poritsky | Contribution to the theory of oil whip | |
| Rudloff et al. | Experimental analysis of the dynamic characteristics of a hybrid aerostatic bearing | |
| Hahn et al. | Harmonic balance analysis of general squeeze film damped multidegree-of-freedom rotor bearing systems | |
| Loewy et al. | Dynamics of rotating shafts | |
| Zhu et al. | Rotordynamic performance of flexure pivot hydrostatic gas bearings for oil-free turbomachinery | |
| Wang et al. | Effects of unbalance location on dynamic characteristics of high-speed gasoline engine turbocharger with floating ring bearings | |
| Bin et al. | Virtual dynamic balancing method without trial weights for multi-rotor series shafting based on finite element model analysis | |
| Lei et al. | Experimental investigation of effects of ship propulsion shafting alignment on shafting whirling and bearing vibrations | |
| Botman | Experiments on oil-film dampers for turbomachinery | |
| De Santiago et al. | Field methods for identification of bearing support parameters—Part II: Identification from rotor dynamic response due to imbalances | |
| Brancati et al. | Non-linear stability analysis of a rigid rotor on tilting pad journal bearings | |
| Kang et al. | A modified influence coefficient method for balancing unsymmetrical rotor-bearing systems | |
| Wu et al. | Online active vibration control for the magnetic suspension rotor using least mean square and polynomial fitting | |
| Brommundt et al. | Instability and self-excitation caused by a gear coupling in a simple rotor system | |
| Tůma et al. | Fluid induced instability of rotor systems with journal bearings | |
| Foiles et al. | Balancing with phase only (single-plane and multiplane) | |
| Dostal et al. | Stability control of flexible shafts supported on oil-film bearings | |
| Prabhu | Steady state and dynamic characteristics of partial journal bearings | |
| Werner | Mathematical analysis of rotor shaft displacements in asynchronous machines; a critical speed or just a rotation of the orbit axis? | |
| Holmes | The effect of sleeve bearings on the vibration of rotating shafts | |
| Wood | Nonlinear vibration damping functions for fluid film bearings | |
| Tang et al. | Dynamics of Synchronous-Precessing Turborotors With Particular Reference to Balancing. Part 1—Theoretical Foundations | |
| Halder et al. | Theoretical and experimental studies on squeeze film stabilizers for flexible rotor-bearing systems using Newtonian and viscoelastic lubricants | |
| Barrett | STABILITY AND NONLINEAR RESPONSE OF ROTOR-BEARING SYSTEMS WITH SQUEEZE FILM BEARINGS. |