Abstract
The problem of flexural vibration of a rotating cantilever blade is non-linear when the vibration takes place in a plane other than perpendicular to the plane of rotation. The non-linearity arises from the effects of Coriolis accelerations due to the rotation of the blade mounted on the periphery of a disc. Lo and Renbarger neglected the non-linear terms in their investigation and arrived at a simple relation for the frequency of vibration in terms of the stationary frequency of the beam, the rotating speed and the orientation of the plane of vibration. Lo in his analysis simplified the non-linear problem by assuming the blade to be rigid everywhere excepting at the root and presented the solution in a phase plane. Isakson and Eisley have considered a similar model to determine the natural frequencies in coupled bending and torsion of twisted rotating cantilever blades.
Publisher
Cambridge University Press (CUP)
Reference8 articles.
1. Lo H. and Renbarger J. Bending Vibrations of a Rotating Beam. First US National Congress of Applied Mechanics, p 75, 1952.
2. Carnegie W. , Stirling C. and Fleming , —. Vibration Characteristics of Turbine Blading Under Rotation. Results of an Initial Investigation and Details of a High Speed Test Installation. IMechE, London. Paper No 32 of Applied Mechanics Convention held at Cambridge during 4th-6th April 1966.
3. Bending Frequency of a Rotating Cantilever Beam;Schilhansl;Journal of Applied Mechanics, Trans ASME,1958
4. The Application of the Variational Method to Derive the Equations of Motion of Vibrating Cantilever Blading under Rotation;Carnegie;Bull Mechanical Engineering Education,1967
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