Uncertainty quantification and sensitivity analysis for the self-excited vibration of a spline-shafting system
Uncertainty quantification and sensitivity analysis for the self-excited vibration of a spline-shafting system
Self-excited vibrations can occur in the spline-shafting system due to internal friction of the tooth surface. However, due to manufacturing errors, design tolerances, and time-varying factors, the parameters that induce self-excited vibrations are always uncertain. This study provides new insights into the uncertainty quantification and sensitivity analysis of a spline-shaft system suffering from self-excited vibrations. The non-intrusive generalised polynomial chaos expansion (gPCE) with unknown deterministic coefficients is used to represent the propagation of uncertainties in the rotor dynamics, which allows rapid estimation of the statistics of the non-linear responses. Furthermore, the global sensitivity analysis of the stochastic self-excited vibration response of the rotor system with probabilistic uncertain parameters is evaluated by Sobol indices. The relative influence of different random parameters on the vibration behavior and initial displacement conditions for the occurrence of self-excited vibration is investigated. The accuracy of the adopted method based on the gPCE metamodel is validated by conventional Monte Carlo simulation (MCS). Finally, the effects of parameter uncertainties considering random distribution characteristics on the stochastic vibration characteristics of the rotor system are discussed, which demonstrates the need to consider input uncertainties in analysis and design to ensure robust system performance.
Ma, Xinxing
829da912-e14a-465e-99ed-41265edd7121
Zhong, Yucai
8318952e-e99b-4e85-8768-7d57ed7d29d3
Cao, Peng
e45f6f53-ce2d-4c97-983b-5ada42fc7375
Yuan, Jie
4bcf9ce8-3af4-4009-9cd0-067521894797
Zhang, Zhenguo
fbd01ce7-8013-42f6-8f3d-8d20dabb9198
Ma, Xinxing
829da912-e14a-465e-99ed-41265edd7121
Zhong, Yucai
8318952e-e99b-4e85-8768-7d57ed7d29d3
Cao, Peng
e45f6f53-ce2d-4c97-983b-5ada42fc7375
Yuan, Jie
4bcf9ce8-3af4-4009-9cd0-067521894797
Zhang, Zhenguo
fbd01ce7-8013-42f6-8f3d-8d20dabb9198
Ma, Xinxing, Zhong, Yucai, Cao, Peng, Yuan, Jie and Zhang, Zhenguo
(2023)
Uncertainty quantification and sensitivity analysis for the self-excited vibration of a spline-shafting system.
Journal of Risk and Uncertainty in Engineering Systems, Part B: Mechanical Engineering.
(In Press)
Abstract
Self-excited vibrations can occur in the spline-shafting system due to internal friction of the tooth surface. However, due to manufacturing errors, design tolerances, and time-varying factors, the parameters that induce self-excited vibrations are always uncertain. This study provides new insights into the uncertainty quantification and sensitivity analysis of a spline-shaft system suffering from self-excited vibrations. The non-intrusive generalised polynomial chaos expansion (gPCE) with unknown deterministic coefficients is used to represent the propagation of uncertainties in the rotor dynamics, which allows rapid estimation of the statistics of the non-linear responses. Furthermore, the global sensitivity analysis of the stochastic self-excited vibration response of the rotor system with probabilistic uncertain parameters is evaluated by Sobol indices. The relative influence of different random parameters on the vibration behavior and initial displacement conditions for the occurrence of self-excited vibration is investigated. The accuracy of the adopted method based on the gPCE metamodel is validated by conventional Monte Carlo simulation (MCS). Finally, the effects of parameter uncertainties considering random distribution characteristics on the stochastic vibration characteristics of the rotor system are discussed, which demonstrates the need to consider input uncertainties in analysis and design to ensure robust system performance.
Text
FMANU-RISK-23-1030 (1)
- Accepted Manuscript
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Accepted/In Press date: 2023
Identifiers
Local EPrints ID: 479507
URI: http://eprints.soton.ac.uk/id/eprint/479507
ISSN: 2332-9017
PURE UUID: 497f3581-0425-46b6-9892-a3a7f9aa042f
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Date deposited: 25 Jul 2023 16:49
Last modified: 17 Mar 2024 04:20
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Contributors
Author:
Xinxing Ma
Author:
Yucai Zhong
Author:
Peng Cao
Author:
Jie Yuan
Author:
Zhenguo Zhang
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