Forced Vibration Analysis of a Nonlinear Structure Connected in Series (Stability Analysis Based on the Argument Principle)

Takahiro Kondou; Atsuo Sueoka; Takumi Inoue

doi:10.1299/kikaic.60.735

Forced Vibration Analysis of a Nonlinear Structure Connected in Series (Stability Analysis Based on the Argument Principle)

Takahiro Kondou, Atsuo Sueoka, Takumi Inoue

Research output: Contribution to journal › Article › peer-review

Abstract

It is a very difficult problem to determine the stability of the periodic steady-state vibrations generated in a large-sized nonlinear system with multiple degrees of freedom. In order to overcome such difficulty, a new practical method to accurately analyze the stability of the periodic solutions obtained from the method of harmonic balance is developed for a nonlinear structure connected in series. The present method is mainly based on the argument principle, and is applicable to the stability analysis of any multi-degree-of-freedom system excited parametrically. By introducing the same treatment as that of the incremental transfer influence coefficient method into the computation process of the present method, the computation speed is improved and the memory size required in the computation is considerably reduced.

Original language	English
Pages (from-to)	735-742
Number of pages	8
Journal	transactions of the japan society of mechanical engineers series c
Volume	60
Issue number	571
DOIs	https://doi.org/10.1299/kikaic.60.735
Publication status	Published - 1994
Externally published	Yes

All Science Journal Classification (ASJC) codes

Mechanics of Materials
Mechanical Engineering
Industrial and Manufacturing Engineering

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10.1299/kikaic.60.735

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abstract = "It is a very difficult problem to determine the stability of the periodic steady-state vibrations generated in a large-sized nonlinear system with multiple degrees of freedom. In order to overcome such difficulty, a new practical method to accurately analyze the stability of the periodic solutions obtained from the method of harmonic balance is developed for a nonlinear structure connected in series. The present method is mainly based on the argument principle, and is applicable to the stability analysis of any multi-degree-of-freedom system excited parametrically. By introducing the same treatment as that of the incremental transfer influence coefficient method into the computation process of the present method, the computation speed is improved and the memory size required in the computation is considerably reduced.",

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year = "1994",

doi = "10.1299/kikaic.60.735",

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AU - Inoue, Takumi

PY - 1994

Y1 - 1994

N2 - It is a very difficult problem to determine the stability of the periodic steady-state vibrations generated in a large-sized nonlinear system with multiple degrees of freedom. In order to overcome such difficulty, a new practical method to accurately analyze the stability of the periodic solutions obtained from the method of harmonic balance is developed for a nonlinear structure connected in series. The present method is mainly based on the argument principle, and is applicable to the stability analysis of any multi-degree-of-freedom system excited parametrically. By introducing the same treatment as that of the incremental transfer influence coefficient method into the computation process of the present method, the computation speed is improved and the memory size required in the computation is considerably reduced.

AB - It is a very difficult problem to determine the stability of the periodic steady-state vibrations generated in a large-sized nonlinear system with multiple degrees of freedom. In order to overcome such difficulty, a new practical method to accurately analyze the stability of the periodic solutions obtained from the method of harmonic balance is developed for a nonlinear structure connected in series. The present method is mainly based on the argument principle, and is applicable to the stability analysis of any multi-degree-of-freedom system excited parametrically. By introducing the same treatment as that of the incremental transfer influence coefficient method into the computation process of the present method, the computation speed is improved and the memory size required in the computation is considerably reduced.

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Forced Vibration Analysis of a Nonlinear Structure Connected in Series (Stability Analysis Based on the Argument Principle)

Abstract

All Science Journal Classification (ASJC) codes

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