Na Qie scite author profile

Complex mechanical systems usually include nonlinear interactions between their components which can be modeled by nonlinear equations describing the sophisticated motion of the system. In order to interpret the nonlinear dynamics of these systems, it is necessary to compute more precisely their nonlinear frequencies. The nonlinear vibration process of a conservative oscillator always follows the law of energy conservation. A variational formulation is constructed and its Hamiltonian invariant is obtained. This paper suggests a Hamiltonian-based formulation to quickly determine the frequency property of the nonlinear oscillator. An example is given to explicate the solution process.

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The fastest insight into the large amplitude vibration of a string

Qie

Houa

2021

Rep. Mech. Eng.

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This paper recommends a simple and excusive approach to a strongly nonlinear oscillator. Its frequency property can be immediately obtained by the simplest calculation. The results show that the method leads to an approximate solution with relatively high accuracy. Considering the simplest solution process, this paper provides a highly efficient tool for fast determination of the amplitude-frequency relationship of a nonlinear oscillator. The large amplitude vibration of a string is used as an example to illustrate the solution process.

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On a strong minimum condition of a fractal variational principle

Qie

et al. 2021

Applied Mathematics Letters

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Solitary waves travelling along an unsmooth boundary

Qie

2021

Results in Physics

120

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Fast identification of the pull-in voltage of a nano/micro-electromechanical system

Qie

et al. 2022

Journal of Low Frequency Noise, Vibration and Active Control

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Na Qie

Hamiltonian-Based Frequency-Amplitude Formulation for Nonlinear Oscillators

The fastest insight into the large amplitude vibration of a string

On a strong minimum condition of a fractal variational principle

Solitary waves travelling along an unsmooth boundary

Fast identification of the pull-in voltage of a nano/micro-electromechanical system

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