Han Zhou scite author profile

The design strategies for powertrain mounting systems play an important role in the reduction of vehicular vibration and noise. As stiffness and damping elements connecting the transmission system and vehicle body, the rubber mount exhibits better vibration isolation performance than the rigid connection. This paper presents a complete design process of the mounting system, including the vibration decoupling, vibration simulation analysis, topology optimization, and experimental verification. Based on the 6-degrees-of-freedom vibration coupling model of the powertrain mounting system, an optimization algorithm is used to extract the best design parameters of each mount, thus rendering the mounting system fully decoupled and the natural frequency well configured, and the optimal parameters are used to design the mounting system. Subsequently, vibration simulation analysis is applied to the mounting system, considering both transmission and road excitations. According to the results of finite element analysis, the topological structure of the metal frame of the front mount is optimized to improve the strength and dynamic characteristics of the mounting system. Finally, the vibration bench test is used to verify the availability of the optimization design with the analysis of acceleration response and vibration transmissibility of the mounting system. The results show that the vibration isolation performance of the mounting system can be improved effectively using the vibration optimal decoupling method, and the structural modification of the metal frame can well promote the dynamic characteristics of the mounting system.

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Mode II interlaminar fracture of hybrid woven carbon-Dyneema composites

Zhou

Xie

et al. 2020

Composites Part A: Applied Science and Manufacturing

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Han Zhou

Anti-Jamming Path Planning for Unmanned Aerial Vehicles with Imperfect Jammer Information

Reducing variable frequency vibrations in a powertrain system with an adaptive tuned vibration absorber group

Optimization Design and Performance Analysis of Vehicle Powertrain Mounting System

Mode II interlaminar fracture of hybrid woven carbon-Dyneema composites

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