Parametric instability analysis of a rotating shaft subjected to a periodic axial force by using discrete singular convolution method
From MaRDI portal
Publication:2356752
DOI10.1007/s11012-016-0457-4zbMath1383.74041OpenAlexW2397009387MaRDI QIDQ2356752
Wei Li, Yingbin Chai, Zhiwei Song, Zhi-Gang Chen
Publication date: 6 June 2017
Published in: Meccanica (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s11012-016-0457-4
parametric instabilitydynamic stabilityrotating shaftdiscrete singular convolutionperiodic axial force
Related Items (3)
A Comparison Study of HO-CFD and DSC-RSK with Small Computational Bandwidths for Solving Some Classes of Boundary-Value and Eigenvalue Problems ⋮ Parametric resonance of a FG cylindrical thin shell with periodic rotating angular speeds in thermal environment ⋮ Three kinds of Sommerfeld effect in rotor dynamics
Cites Work
- Unnamed Item
- Unnamed Item
- Nonlinear vibration analysis of a spinning shaft with multi-disks
- Comparison of discrete singular convolution and generalized differential quadrature for the vibration analysis of rectangular plates
- Free vibration analyses of Timoshenko beams with free edges by using the discrete singular convolution
- Stability boundaries of a spinning rotor with parametrically excited gyroscopic system
- Fundamental frequency of isotropic and orthotropic rectangular plates with linearly varying thickness by discrete singular convolution method
- Nonlinear vibration of variable speed rotating viscoelastic beams
- Comparison of the discrete singular convolution algorithm and the Fourier pseudospectral method for solving partial differential equations
- Parametric instability of spinning pretwisted beams subjected to spin speed perturbation
- Dynamic stability of pre-twisted beams with non-constant spin rates under axial random forces.
- Discrete singular convolution for the prediction of high frequency vibration of plates
- Plate vibration under irregular internal supports.
- A comparison of the spectral and the discrete singular convolution schemes for the KdV-type equations
- The study of quasi-wavelets based numerical method applied to Burgers equations
- Parametric instability of a spinning pretwisted beam under periodic axial force
- Dynamic stability of the viscoelastic rotating shaft subjected to random excitation
- Discrete singular convolution for the sine-Gordon equation
- Stochastic stability of a rotating shaft
- Numerical analysis of free vibrations of laminated composite conical and cylindrical shells: Discrete singular convolution (DSC) approach
- Free vibration analysis of multiple-stepped beams by the discrete singular convolution
- Dynamic stability of spinning pre-twisted beams subject to axial pulsating loads
- Free vibration analysis of thin isotropic and anisotropic rectangular plates by the discrete singular convolution algorithm
- VIBRATION ANALYSIS BY DISCRETE SINGULAR CONVOLUTION
- DSC analysis of free-edged beams by an iteratively matched boundary method
- Stability and non-stationary vibration of columns under periodic loads
- Matched interface and boundary (MIB) method for the vibration analysis of plates
- Parametric instability of spinning pretwisted beams subjected to sinusoidal compressive axial loads
- Application of generalized differential quadrature method to structural problems
- THE RESPONSE OF A NONLINEAR SYSTEM WITH A NONSEMISIMPLE ONE-TO-ONE RESONANCE TO A COMBINATION PARAMETRIC RESONANCE
- Effects of axial base excitations on the dynamic stability of spinning pre-twisted cantilever beams
- Discrete singular convolution and its application to the analysis of plates with internal supports. Part 1: Theory and algorithm
- Discrete singular convolution and its application to the analysis of plates with internal supports. Part 2: Applications
- Parameter optimization in the regularized Shannon's kernels of higher-order discrete singular convolutions
- DSC‐Ritz method for high‐mode frequency analysis of thick shallow shells
- DSC‐Ritz method for the free vibration analysis of Mindlin plates
- A new algorithm for solving some mechanical problems
- The determination of natural frequencies of rectangular plates with mixed boundary conditions by discrete singular convolution
This page was built for publication: Parametric instability analysis of a rotating shaft subjected to a periodic axial force by using discrete singular convolution method
