Journal
APPLIED MATHEMATICAL MODELLING
Volume 123, Issue -, Pages 136-158Publisher
ELSEVIER SCIENCE INC
DOI: 10.1016/j.apm.2023.06.032
Keywords
Squeeze film damper; Spiral bevel gear; Vibration attenuation characteristic; Nonlinear oil-film force; Aero-engines
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This research adopts squeeze film dampers as damping devices to suppress excessive vibration of the spiral bevel gear rotor system. The theoretical analysis and experimental results show that the squeeze film dampers can effectively reduce the vibration amplitude of the system at high speeds.
A central drive bevel gear system of aero-engines extracts power from a high-pressure rotor. The high speed of the high-pressure rotor aggravates the gear system's vibration. This work adopts squeeze film dampers (SFD) as damping devices to suppress excessive vibration of the spiral bevel gear rotor system. This paper establishes the general Reynolds equation of SFD and calculates the nonlinear oil-film force of SFD in real-time based on the finite element method. Besides, the finite element method and Timoshenko beam element are employed to model the flexible gear shaft. Then, the dynamic model of the spiral bevel gear system supported by SFD s is established, including the nonlinear oil-film force of SFD and time-varying meshing stiffness of the gear system. The dynamic response of the spiral bevel gear system is analyzed theoretically and experimentally to study the vibration attenuation characteristics of SFD. The findings indicate that SFD can effectively suppress the vibration amplitude of the system at high speeds. The theoretical analysis and experimental amplitude are within an order of magnitude, and the changing trend is consistent.
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