Siyu Chen scite author profile

The rotordynamics of a double-helical gear transmission system is investigated. The equation of motion of the system with bearing and gyroscopic effect is derived by using the finite element method, in which Timoshenko beam finite element is used to represent the shaft, a rigid mass for the gear. Natural frequencies, mode shapes and Campbell diagrams are illustrated to indicate the effects of gear input speed and time varying mesh stiffness. Besides, effects of mesh stiffness on the critical speed of the gear transmission system are analyzed. The numerical results show that the axial force has significant influence on the natural frequency and the mode shape of the double-helical gear transmission system, for which the mix whirling motion dominates the natural characteristics. There are two higher critical speed curves which increase with the mesh stiffness, but one of them is related to the gyroscopic effect.

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Nonlinear dynamic characteristics of geared rotor bearing systems with dynamic backlash and friction

Chen

Tang

Cai-wang

et al. 2011

Mechanism and Machine Theory

167

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Spur Gear Lubrication Analysis with Dynamic Loads

Liu

Mao

Zhu

et al. 2013

Tribology Transactions

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Nonlinear tribo-dynamic model and experimental verification of a spur gear drive under loss-of-lubrication condition

Zhou

Wang

et al. 2021

Mechanical Systems and Signal Processing

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A novel, efficient and sustainable magnetic sludge biochar modified by graphene oxide for environmental concentration imidacloprid removal

et al. 2021

Journal of Hazardous Materials

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Siyu Chen

Rotordynamics analysis of a double-helical gear transmission system

Nonlinear dynamic characteristics of geared rotor bearing systems with dynamic backlash and friction

Spur Gear Lubrication Analysis with Dynamic Loads

Nonlinear tribo-dynamic model and experimental verification of a spur gear drive under loss-of-lubrication condition

A novel, efficient and sustainable magnetic sludge biochar modified by graphene oxide for environmental concentration imidacloprid removal

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