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    Predicting the lateral performance of a new type of Midply shear wall system: An efficient methodology

    New search for: Kari, Amir
    New search for: Lam, Frank
    New search for: Xiang, Liuzhen
    New search for: Chen, Yue
    New search for: Yeh, Borjen

    Abstract Test results from double-shear nail joints were utilised to predict the in-plane lateral performance of an innovative Midply shear wall, Midply2.0, across six distinct configurations. The joints were subjected to monotonic and reversed cyclic loadings. Joint models were subsequently developed, calibrated, and verified against the test data. These models were incorporated into a wall model representing the lateral behaviour of Midply2.0 walls. This wall model reasonably predicted results for a tested Midply2.0 wall prototype. Then, this model was used to predict the lateral performance of five other Midply2.0 prototypes. This approach yields significant time and cost savings.

    Highlights Lateral performance of new Midply system is predictable using nail joint test results. Equivalent single-nail model for Midply boosts analysis speed and maintains accuracy. Reducing nail spacing in Midply increases strength and stiffness and lowers ductility.

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    Predicting the lateral performance of a new type of Midply shear wall system: An efficient methodology

    New search for: Kari, Amir
    New search for: Lam, Frank
    New search for: Xiang, Liuzhen
    New search for: Chen, Yue
    New search for: Yeh, Borjen

    Abstract Test results from double-shear nail joints were utilised to predict the in-plane lateral performance of an innovative Midply shear wall, Midply2.0, across six distinct configurations. The joints were subjected to monotonic and reversed cyclic loadings. Joint models were subsequently developed, calibrated, and verified against the test data. These models were incorporated into a wall model representing the lateral behaviour of Midply2.0 walls. This wall model reasonably predicted results for a tested Midply2.0 wall prototype. Then, this model was used to predict the lateral performance of five other Midply2.0 prototypes. This approach yields significant time and cost savings.

    Highlights Lateral performance of new Midply system is predictable using nail joint test results. Equivalent single-nail model for Midply boosts analysis speed and maintains accuracy. Reducing nail spacing in Midply increases strength and stiffness and lowers ductility.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Predicting the lateral performance of a new type of Midply shear wall system: An efficient methodology

    New search for: Kari, Amir
    New search for: Lam, Frank
    New search for: Xiang, Liuzhen
    New search for: Chen, Yue
    New search for: Yeh, Borjen

    Abstract Test results from double-shear nail joints were utilised to predict the in-plane lateral performance of an innovative Midply shear wall, Midply2.0, across six distinct configurations. The joints were subjected to monotonic and reversed cyclic loadings. Joint models were subsequently developed, calibrated, and verified against the test data. These models were incorporated into a wall model representing the lateral behaviour of Midply2.0 walls. This wall model reasonably predicted results for a tested Midply2.0 wall prototype. Then, this model was used to predict the lateral performance of five other Midply2.0 prototypes. This approach yields significant time and cost savings.

    Highlights Lateral performance of new Midply system is predictable using nail joint test results. Equivalent single-nail model for Midply boosts analysis speed and maintains accuracy. Reducing nail spacing in Midply increases strength and stiffness and lowers ductility.

    Access

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    Order at Subito €

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    Title:

    Predicting the lateral performance of a new type of Midply shear wall system: An efficient methodology

    Contributors:

    Kari, Amir (author) / Lam, Frank (author) / Xiang, Liuzhen (author) / Chen, Yue (author) / Yeh, Borjen (author)

    Published in:

    Engineering Structures ; 308

    Publication date:

    2024-03-27

    ISSN:

    0141-0296

    DOI:

    https://doi.org/10.1016/j.engstruct.2024.117952

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Midply , Wood structure , Shear wall , Lateral loading behaviour , Cyclic loading test , Numerical modelling , Nail joint

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