1. Lubrication analysis of stern bearing during ship severe turning maneuver.
- Author
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Yang, Kun and Zhang, Tao
- Subjects
- *
ELASTOHYDRODYNAMIC lubrication , *REYNOLDS equations , *HYDRODYNAMIC lubrication , *SHIPS , *PROPELLERS , *DEFORMATIONS (Mechanics) - Abstract
Stern shaft deformation caused by ship maneuvering will lead to stern bearing lubrication failure and wear. Based on the displacement superposition method, the deflection equation of the stern shaft under the action of the interface force and the propeller load was established. The fluid-solid coupling model of the stern bearing was established by using the averaged Reynolds equation, the Greenwood-Tripp model, and the influence coefficient method. The model was experimentally validated. The influence of the shaft bending deformation caused by the propeller load change on the lubrication characteristics is discussed. The results show that the shaft bending deformation leads to the changes in lubrication characteristics along the axial and circumferential directions. Compared with the vertical load alone, the existence of horizontal propeller load will significantly reduce the minimum nominal oil film thickness and friction coefficient. Under hydrodynamic lubrication, the direction of horizontal load has little effect on friction coefficient. • The displacement superposition method is used to calculate the bending deformation of the propeller shaft. • A fluid-solid coupling model of marine stern bearing is established. • The friction coefficient of the oil-lubricated bearing were tested to verify the model. • The lubrication performance of stern bearing during the ship severe turning maneuver is discussed. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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