2023
DOI: 10.1177/10775463231163613
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Vibration and stability analysis of a spinning shaft with arbitrary boundaries subjected to partial load

Abstract: This paper deals with the flexural vibration and dynamic stability of a spinning shaft subjected to partial load. Based on the theorem of moment of momentum and the theorem of motion of center of mass, the governing equation of motion for the spinning shaft system is obtained. Four kinds of boundary conditions including pinned-pinned, clamped-clamped, free-free, and elastic supports are considered. The exact whirl frequency equation is derived analytically for different boundary conditions. The obtained model … Show more

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Cited by 4 publications
(1 citation statement)
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“…Functioning as a rotary sealing component, the oil seal is primarily positioned between the principal shaft and the enclosure of the transmission system. Due to inherent installation deviations arising from the equipment's manufacturing process (Liu et al, 2022), coupled with the infrequent replacement of the principal shaft and the enduring influence of applied loads and gravitational forces over the shaft (Wang et al, 2023), the principal shaft and enclosure may eventually become misaligned, leaving the oil seal in an eccentric state. Sinzara et al (2018) conducted experiments using various rotational speeds to examine how changes in eccentricity affect friction torque, leakage rate, temperature and other performance parameters.…”
Section: Introductionmentioning
confidence: 99%
“…Functioning as a rotary sealing component, the oil seal is primarily positioned between the principal shaft and the enclosure of the transmission system. Due to inherent installation deviations arising from the equipment's manufacturing process (Liu et al, 2022), coupled with the infrequent replacement of the principal shaft and the enduring influence of applied loads and gravitational forces over the shaft (Wang et al, 2023), the principal shaft and enclosure may eventually become misaligned, leaving the oil seal in an eccentric state. Sinzara et al (2018) conducted experiments using various rotational speeds to examine how changes in eccentricity affect friction torque, leakage rate, temperature and other performance parameters.…”
Section: Introductionmentioning
confidence: 99%