Experimental identification on natural frequency of structure  using multi-objective optimizing method

Masayuki ICHIMONJI; Yuki MIMURA; Kazunori IKEDA; Toshikazu NAGATA; Toshiaki HIRATE; Kyohei HIRAI; Toshio HIRANO; Ryo FUCHIMOTO; Takanobu SHIWAKU; Masao ARAKAWA

doi:10.1299/transjsme.17-00056

Nihon Kikai Gakkai ronbunshu (Sep 2017)

Experimental identification on natural frequency of structure using multi-objective optimizing method

Masayuki ICHIMONJI,
Yuki MIMURA,
Kazunori IKEDA,
Toshikazu NAGATA,
Toshiaki HIRATE,
Kyohei HIRAI,
Toshio HIRANO,
Ryo FUCHIMOTO,
Takanobu SHIWAKU,
Masao ARAKAWA

Affiliations

Masayuki ICHIMONJI: Power and Industrial Systems Research and Development Center, TOSHIBA Corporation
Yuki MIMURA: Power and Industrial Systems Research and Development Center, TOSHIBA Corporation
Kazunori IKEDA: Power and Industrial Systems Research and Development Center, TOSHIBA Corporation
Toshikazu NAGATA: Power and Industrial Systems Research and Development Center, TOSHIBA Corporation
Toshiaki HIRATE: Power and Industrial Systems Research and Development Center, TOSHIBA Corporation
Kyohei HIRAI: Power and Industrial Systems Research and Development Center, TOSHIBA Corporation
Toshio HIRANO: Power and Industrial Systems Research and Development Center, TOSHIBA Corporation
Ryo FUCHIMOTO: Keihin Product Operations, TOSHIBA Corporation
Takanobu SHIWAKU: Department of Electronics and Information Engineering, Kagawa University
Masao ARAKAWA: Department of Electronics and Information Engineering, Kagawa University

DOI: https://doi.org/10.1299/transjsme.17-00056
Journal volume & issue: Vol. 83, no. 853
pp. 17-00056 – 17-00056

Abstract

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Dynamic FEM analysis is valid for designing rotating machinery to reduce its vibration problem when we may ensure enough accuracy of the analysis. Surrogate multiple objective optimization method is one of the most effective methods for structural identification improving the FEM analysis model of a structure to adjust the natural frequency analysis results to the experimental results. In this study the structural identification method is applied to stator end-windings of a turbine generator to determine the Young's modulus of the principal components on the FE model minimizing the analysis errors of the natural frequencies of the 2-lobe and 4-lobe circular modes to the corresponding experimental results. The accurate FE model of the end-windings is obtained by this method.

Published in Nihon Kikai Gakkai ronbunshu

ISSN: 2187-9761 (Online)
Publisher: The Japan Society of Mechanical Engineers
Country of publisher: Japan
LCC subjects: Technology: Mechanical engineering and machinery; Technology: Engineering (General). Civil engineering (General): Engineering machinery, tools, and implements
Website: https://www.jsme.or.jp/publish/transact/

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