Theoretical Study on the Nonlinear Dynamic Response of Propulsion Shafting under Time-Varying Hull Motion

Due to the effect of external elements such sea waves and sea wind, the ship will unavoidably produce 6 degrees of freedom of movement, with roll motion being the most likely to occur and having the greatest impact. This paper establishes a general dynamic model of the propulsion shafting based on T...

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Published in	Journal of physics. Conference series Vol. 2542; no. 1; pp. 12021 - 12035
Main Authors	Changyou, Huang, Jianzhong, Hu
Format	Journal Article
Language	English
Published	Bristol IOP Publishing 01.07.2023
Subjects	Amplitudes Axis movements Beam theory (structures) Dynamic models Dynamic response Dynamical systems Nonlinear dynamics Nonlinear response Physics Poincare maps Propulsion Rolling motion Timoshenko beams
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Abstract	Due to the effect of external elements such sea waves and sea wind, the ship will unavoidably produce 6 degrees of freedom of movement, with roll motion being the most likely to occur and having the greatest impact. This paper establishes a general dynamic model of the propulsion shafting based on Timoshenko beam theory, the concentrated mass method, and Lagrange’s equation under roll motion and translation motion to study the dynamic behaviour of the propulsion shafting under roll motion and translation motion. FFT, axis trajectory, Poincaré map, and 3D spectrogram were utilized to examine the impact of motion amplitude, frequency, and rotation speed on the propulsion shafting’s dynamic response. The results demonstrated that base motion significantly affects the dynamics of the propulsion shafting, resulting in many components appearing in the system’s response spectrum, and the system changes from quasi-periodic to chaotic motion when base motion amplitude or frequency rises.
AbstractList	Due to the effect of external elements such sea waves and sea wind, the ship will unavoidably produce 6 degrees of freedom of movement, with roll motion being the most likely to occur and having the greatest impact. This paper establishes a general dynamic model of the propulsion shafting based on Timoshenko beam theory, the concentrated mass method, and Lagrange’s equation under roll motion and translation motion to study the dynamic behaviour of the propulsion shafting under roll motion and translation motion. FFT, axis trajectory, Poincaré map, and 3D spectrogram were utilized to examine the impact of motion amplitude, frequency, and rotation speed on the propulsion shafting’s dynamic response. The results demonstrated that base motion significantly affects the dynamics of the propulsion shafting, resulting in many components appearing in the system’s response spectrum, and the system changes from quasi-periodic to chaotic motion when base motion amplitude or frequency rises.
Author	Changyou, Huang Jianzhong, Hu
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Cites_doi	10.1016/j.ijnonlinmec.2014.12.012 10.1016/j.oceaneng.2019.106364 10.1155/2019/7683952 10.1016/j.measurement.2019.107406 10.1016/j.jsv.2022.116953 10.1115/1.4044381 10.1007/s11071-020-06052-0 10.1177/0954410020942610 10.1016/j.cja.2020.04.001 10.1007/s11431-015-5850-z 10.18178/ijmerr.7.5.489-494 10.18178/ijmerr.9.6.784-790
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Snippet	Due to the effect of external elements such sea waves and sea wind, the ship will unavoidably produce 6 degrees of freedom of movement, with roll motion being...
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SubjectTerms	Amplitudes Axis movements Beam theory (structures) Dynamic models Dynamic response Dynamical systems Nonlinear dynamics Nonlinear response Physics Poincare maps Propulsion Rolling motion Timoshenko beams
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Title	Theoretical Study on the Nonlinear Dynamic Response of Propulsion Shafting under Time-Varying Hull Motion
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