You Wang scite author profile

You Wang

2Publications

3Citation Statements Received

64Citation Statements Given

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Affiliations

Shenyang Institute of Automation, Chinese Academy of Sciences

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Analysis and design of the power law damping based on the nonlinear vessel isolation system

Wang

Zhu

Zheng

et al. 2018

Advances in Mechanical Engineering

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In this study, the applications of the cubic power law damping in vessel isolation systems are investigated. The isolation performance is assessed using the force transmissibility of the vessel isolation system, which is simplified as a multipledegree-of-freedom system with two parallel freedoms. The force transmissibilities of different working conditions faced in practice are discussed by applying the cubic power law damping on different positions of the vessel isolation system. Numerical results indicate that by adding the cubic power law damping to an appropriate position, the isolation system can not only suppress the force transmissibility over the resonant frequency region but also keep the force transmissibility unaffected at the nonresonant frequency region. Moreover, the design of the nonlinear vessel isolation system is discussed by finding the optimal nonlinear damping of the isolation system.

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Design of a floating raft system by exploiting the nonlinear damping

Wang

Zhu

Guo

et al. 2023

Advances in Mechanical Engineering

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In the present study, the optimization design of the cubic nonlinear damping is conducted for a floating raft isolation system, which can be simplified as a multiple degree-of-freedom system with double parallel freedom inputs. The direct relationship between the power transmissibility and cubic nonlinear damping parameters is derived by taking advantage of the output frequency response function (OFRF) approach. The design requirements are proposed in order to achieve low resonant peak values, low power transmissibility over the high frequency range. The detailed step-by-step design process of the floating raft isolation system applied in a practical vessel is provided. A polynomial function, in terms of the required frequency range, is developed and validated from the simulation data. The case application indicates that the design method determined by the OFRF approach can effectively realize the design requirements of a floating raft isolation system, which can deal with the relationship of the power transmissibility and nonlinear damping parameters.

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You Wang

Analysis and design of the power law damping based on the nonlinear vessel isolation system

Design of a floating raft system by exploiting the nonlinear damping

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