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    RESEARCH ON VIBRATION SUPPRESSION PERFORMANCE OF BNES BASED ON MAGNETIZING CURRENT METHOD (MT)

    New search for: SONG WeiZhi
    New search for: ZHOU Hui
    New search for: LIU ZhiEn
    New search for: LI Bin
    New search for: ZHU DeRong
    New search for: CHEN ZhiYong

    A bistable-nonlinear energy sink(BNES) is designed to control the vibration of the main system in a wide frequency range. The spatial magnetic force of cantilever structure system is analyzed based on the magnetizing current theory, and the influences of magnetic spacing and cantilever length on stability point of BNES are studied. The dynamic equations of main system coupling BNES are established to study the stability of transient performance of BNES under different excitation intensities. The effect of magnetic spacing on the steady-state vibration reduction performance of the BNES is studied through the amplitude frequency characteristics, and the stability performance of the BNES with the change of excitation intensity at 0.5 times, 1 times and 1.5 times resonant excitation frequency is studied. The analysis results show that the proposed BNES has good transient and steady-state vibration reduction performance and good robustness.

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    RESEARCH ON VIBRATION SUPPRESSION PERFORMANCE OF BNES BASED ON MAGNETIZING CURRENT METHOD (MT)

    New search for: SONG WeiZhi
    New search for: ZHOU Hui
    New search for: LIU ZhiEn
    New search for: LI Bin
    New search for: ZHU DeRong
    New search for: CHEN ZhiYong

    A bistable-nonlinear energy sink(BNES) is designed to control the vibration of the main system in a wide frequency range. The spatial magnetic force of cantilever structure system is analyzed based on the magnetizing current theory, and the influences of magnetic spacing and cantilever length on stability point of BNES are studied. The dynamic equations of main system coupling BNES are established to study the stability of transient performance of BNES under different excitation intensities. The effect of magnetic spacing on the steady-state vibration reduction performance of the BNES is studied through the amplitude frequency characteristics, and the stability performance of the BNES with the change of excitation intensity at 0.5 times, 1 times and 1.5 times resonant excitation frequency is studied. The analysis results show that the proposed BNES has good transient and steady-state vibration reduction performance and good robustness.

    Access

    Download

    RESEARCH ON VIBRATION SUPPRESSION PERFORMANCE OF BNES BASED ON MAGNETIZING CURRENT METHOD (MT)

    New search for: SONG WeiZhi
    New search for: ZHOU Hui
    New search for: LIU ZhiEn
    New search for: LI Bin
    New search for: ZHU DeRong
    New search for: CHEN ZhiYong

    A bistable-nonlinear energy sink(BNES) is designed to control the vibration of the main system in a wide frequency range. The spatial magnetic force of cantilever structure system is analyzed based on the magnetizing current theory, and the influences of magnetic spacing and cantilever length on stability point of BNES are studied. The dynamic equations of main system coupling BNES are established to study the stability of transient performance of BNES under different excitation intensities. The effect of magnetic spacing on the steady-state vibration reduction performance of the BNES is studied through the amplitude frequency characteristics, and the stability performance of the BNES with the change of excitation intensity at 0.5 times, 1 times and 1.5 times resonant excitation frequency is studied. The analysis results show that the proposed BNES has good transient and steady-state vibration reduction performance and good robustness.

    Access

    Download

    Access

    Download

    Page navigation

    Document information
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    Document information
    Title:

    RESEARCH ON VIBRATION SUPPRESSION PERFORMANCE OF BNES BASED ON MAGNETIZING CURRENT METHOD (MT)

    Contributors:

    SONG WeiZhi (author) / ZHOU Hui (author) / LIU ZhiEn (author) / LI Bin (author) / ZHU DeRong (author) / CHEN ZhiYong (author)

    Published in:

    Jixie qiangdu, Pp 271-277 (2023)

    Publication date:

    2023

    ISSN:

    1001-9669

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Vibration suppression , Magnetizing current , Bistable-nonlinear energy sink , Magnetic distance , Robustness , Mechanical engineering and machinery , TJ1-1570 , Materials of engineering and construction. Mechanics of materials , TA401-492

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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