Investigation of the effects of frequency veering phenomenon in a pre-twisted and double-tapered rotating Timoshenko beam

The natural frequency curve veering phenomena have been significant and used in several structural dynamic problems. By formulating a pre-twisted and double-tapered rotating Timoshenko beam as a structural problem, variations in mode interactions among coupled axial, chordwise, and flapwise motions...

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Bibliographic Details
Published in:Journal of vibration and control 2024-04, Vol.30 (7-8), p.1706-1720
Main Authors: D, Sachin, Reddy Degalhal, Mallikarjuna
Format: Article
Language:English
Subjects:
Bending
Coupled modes
Equations of motion
Euler-Bernoulli beams
Finite element method
Hamilton's principle
Resonant frequencies
Rotation
Rotor dynamics
Stiffening
Tapering
Timoshenko beams
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Summary:The natural frequency curve veering phenomena have been significant and used in several structural dynamic problems. By formulating a pre-twisted and double-tapered rotating Timoshenko beam as a structural problem, variations in mode interactions among coupled axial, chordwise, and flapwise motions were presented. Rotordynamic effects such as gyroscopic couple, centrifugal stiffening, and spin softening effects were taken into account while establishing the equations of motion. Hamilton’s principle was used in deriving the equations of motion and is discretized based on Galerkin finite element method. Using dimensionless parameters, the model was verified with the existing literature for rotation, pre-twist, and double-taper configurations. A comparison of the frequency veering regions among the Euler–Bernoulli beam and Timoshenko beam theories is presented. Two-dimensional mode shape plots were used to show the coupled motions between axial displacement, chordwise bending, and flapwise bending. The effects of pre-twist and double-taper in the non-rotating Timoshenko beam on the modal properties of the rotating beam were examined. Natural frequency maps were drawn to locate the frequency veering curves. Mode interactions around different veering regions were shown with variations in mode shapes. An investigation on 60° pre-twisted and 0.5 ratio double-tapered rotating Timoshenko beam is presented.
ISSN:1077-5463
1741-2986
DOI:10.1177/10775463231169810