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    Numerical Simulation of Stretch Bending for L-section Aluminum Alloy Profile

    New search for: Y. Liu
    New search for: L. Song
    New search for: J. Yin
    New search for: F. Ma
    New search for: Z. Sha
    New search for: D. Yang
    New search for: S. Zhang

    High precision stretch bending of aluminum alloy profile is the key technology for making car’s frame body. A numerical simulation study on the displacement-controlled process for a typical kind of L-section aluminum alloy profile used in high-speed rail with finite element analysis software is presented. The effect of different friction coefficients, with or without baffle and cover plate on the equivalent stress, strain and cross-sectional distortion are investigated. It is shown that the increase of the friction coefficient can increase the cross-sectional distortion, equivalent stress and strain. The installation of baffle and cover plate can significantly reduce the cross-sectional distortion in the middle section of the profile, and increase the equivalent stress and strain to some extent.

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    Numerical Simulation of Stretch Bending for L-section Aluminum Alloy Profile

    New search for: Y. Liu
    New search for: L. Song
    New search for: J. Yin
    New search for: F. Ma
    New search for: Z. Sha
    New search for: D. Yang
    New search for: S. Zhang

    High precision stretch bending of aluminum alloy profile is the key technology for making car’s frame body. A numerical simulation study on the displacement-controlled process for a typical kind of L-section aluminum alloy profile used in high-speed rail with finite element analysis software is presented. The effect of different friction coefficients, with or without baffle and cover plate on the equivalent stress, strain and cross-sectional distortion are investigated. It is shown that the increase of the friction coefficient can increase the cross-sectional distortion, equivalent stress and strain. The installation of baffle and cover plate can significantly reduce the cross-sectional distortion in the middle section of the profile, and increase the equivalent stress and strain to some extent.

    Access

    Download

    Numerical Simulation of Stretch Bending for L-section Aluminum Alloy Profile

    New search for: Y. Liu
    New search for: L. Song
    New search for: J. Yin
    New search for: F. Ma
    New search for: Z. Sha
    New search for: D. Yang
    New search for: S. Zhang

    High precision stretch bending of aluminum alloy profile is the key technology for making car’s frame body. A numerical simulation study on the displacement-controlled process for a typical kind of L-section aluminum alloy profile used in high-speed rail with finite element analysis software is presented. The effect of different friction coefficients, with or without baffle and cover plate on the equivalent stress, strain and cross-sectional distortion are investigated. It is shown that the increase of the friction coefficient can increase the cross-sectional distortion, equivalent stress and strain. The installation of baffle and cover plate can significantly reduce the cross-sectional distortion in the middle section of the profile, and increase the equivalent stress and strain to some extent.

    Access

    Download

    Access

    Download

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    Document information
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    Document information
    Title:

    Numerical Simulation of Stretch Bending for L-section Aluminum Alloy Profile

    Contributors:

    Y. Liu (author) / L. Song (author) / J. Yin (author) / F. Ma (author) / Z. Sha (author) / D. Yang (author) / S. Zhang (author)

    Published in:

    Electronic Journal of Structural Engineering, Vol 18, Iss 2 (2018)

    Publication date:

    2018

    ISSN:

    1443-9255

    DOI:

    https://doi.org/10.56748/ejse.182652

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Aluminum alloy , Stretch bending , Numerical simulation , Cross-sectional distortion , Architectural engineering. Structural engineering of buildings , TH845-895 , Structural engineering (General) , TA630-695

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

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