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    ANALYSIS OF STRESS INTENSITY FACTOR BASED ON GENERALIZED MIXED ENRICHED ELEMENT METHOD

    New search for: GUO Shuai
    New search for: QING GuangHui
    New search for: HE YuXuan

    The stress intensity factor (SIF) have been studied by many methods based on the displacement element model. However, under sparse meshes, the displacement element models will suffer from excessive stiffness, and are difficult to introduce the stress boundary conditions directly which lacking in objectivity. The generalized mixed enriched element method is proposed based on the principle of enriched element and generalized H-R variational principle. This method takes the crack tipstress singularity into account, considers the introducing of stress boundary conditions, and overcomes the oscillation of the classical mixed enriched element method. Numerical examples show that the stress intensity factor obtined by this method is stable and reliable with a high degree of accuracy.

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    ANALYSIS OF STRESS INTENSITY FACTOR BASED ON GENERALIZED MIXED ENRICHED ELEMENT METHOD

    New search for: GUO Shuai
    New search for: QING GuangHui
    New search for: HE YuXuan

    The stress intensity factor (SIF) have been studied by many methods based on the displacement element model. However, under sparse meshes, the displacement element models will suffer from excessive stiffness, and are difficult to introduce the stress boundary conditions directly which lacking in objectivity. The generalized mixed enriched element method is proposed based on the principle of enriched element and generalized H-R variational principle. This method takes the crack tipstress singularity into account, considers the introducing of stress boundary conditions, and overcomes the oscillation of the classical mixed enriched element method. Numerical examples show that the stress intensity factor obtined by this method is stable and reliable with a high degree of accuracy.

    Access

    Download

    ANALYSIS OF STRESS INTENSITY FACTOR BASED ON GENERALIZED MIXED ENRICHED ELEMENT METHOD

    New search for: GUO Shuai
    New search for: QING GuangHui
    New search for: HE YuXuan

    The stress intensity factor (SIF) have been studied by many methods based on the displacement element model. However, under sparse meshes, the displacement element models will suffer from excessive stiffness, and are difficult to introduce the stress boundary conditions directly which lacking in objectivity. The generalized mixed enriched element method is proposed based on the principle of enriched element and generalized H-R variational principle. This method takes the crack tipstress singularity into account, considers the introducing of stress boundary conditions, and overcomes the oscillation of the classical mixed enriched element method. Numerical examples show that the stress intensity factor obtined by this method is stable and reliable with a high degree of accuracy.

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    Download

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    Document information
    Title:

    ANALYSIS OF STRESS INTENSITY FACTOR BASED ON GENERALIZED MIXED ENRICHED ELEMENT METHOD

    Contributors:

    GUO Shuai (author) / QING GuangHui (author) / HE YuXuan (author)

    Published in:

    Jixie qiangdu, Vol 46, Pp 202-207 (2024)

    Publication date:

    2024

    ISSN:

    1001-9669

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Singularity , Stress intensity factor , Generalized mixed enriched element , Stress boundary condition , 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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