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    STATISTICAL ANALYSIS OF FATIGUE CRACK GROWTH TEST DATA FOR 2024-T62 ALUMINUM ALLOY

    New search for: WANG XuHu
    New search for: WANG HuoPing
    New search for: WANG DongFei
    New search for: DOU XiaoPeng

    The fatigue crack growth tests for 2024-T62 aluminum alloy were conducted under three stress levels, the dispersion of fatigue crack growth were analyzed by using experimental data based on mathematical statistics. The analysis results indicate that the experimental data of fatigue crack growth obey the log-norm distribution. The standard deviation and coefficient of variation(COV) both increase with the loading cycle raising. The stress levels have some effect on dispersion of fatigue crack growth sizes, when the loading cycle increases, the standard deviation of fatigue crack growth under high stress level is greater than the standard deviation of fatigue crack growth under low stress level, and the increasing speed of standard deviation and COV of fatigue crack growth under high stress level is faster than the increasing speed of standard deviation and COV of fatigue crack growth under low stress level. The stochastic fatigue crack growth model is verified by experimental data.

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    STATISTICAL ANALYSIS OF FATIGUE CRACK GROWTH TEST DATA FOR 2024-T62 ALUMINUM ALLOY

    New search for: WANG XuHu
    New search for: WANG HuoPing
    New search for: WANG DongFei
    New search for: DOU XiaoPeng

    The fatigue crack growth tests for 2024-T62 aluminum alloy were conducted under three stress levels, the dispersion of fatigue crack growth were analyzed by using experimental data based on mathematical statistics. The analysis results indicate that the experimental data of fatigue crack growth obey the log-norm distribution. The standard deviation and coefficient of variation(COV) both increase with the loading cycle raising. The stress levels have some effect on dispersion of fatigue crack growth sizes, when the loading cycle increases, the standard deviation of fatigue crack growth under high stress level is greater than the standard deviation of fatigue crack growth under low stress level, and the increasing speed of standard deviation and COV of fatigue crack growth under high stress level is faster than the increasing speed of standard deviation and COV of fatigue crack growth under low stress level. The stochastic fatigue crack growth model is verified by experimental data.

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    Download

    STATISTICAL ANALYSIS OF FATIGUE CRACK GROWTH TEST DATA FOR 2024-T62 ALUMINUM ALLOY

    New search for: WANG XuHu
    New search for: WANG HuoPing
    New search for: WANG DongFei
    New search for: DOU XiaoPeng

    The fatigue crack growth tests for 2024-T62 aluminum alloy were conducted under three stress levels, the dispersion of fatigue crack growth were analyzed by using experimental data based on mathematical statistics. The analysis results indicate that the experimental data of fatigue crack growth obey the log-norm distribution. The standard deviation and coefficient of variation(COV) both increase with the loading cycle raising. The stress levels have some effect on dispersion of fatigue crack growth sizes, when the loading cycle increases, the standard deviation of fatigue crack growth under high stress level is greater than the standard deviation of fatigue crack growth under low stress level, and the increasing speed of standard deviation and COV of fatigue crack growth under high stress level is faster than the increasing speed of standard deviation and COV of fatigue crack growth under low stress level. The stochastic fatigue crack growth model is verified by experimental data.

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    Title:

    STATISTICAL ANALYSIS OF FATIGUE CRACK GROWTH TEST DATA FOR 2024-T62 ALUMINUM ALLOY

    Contributors:

    WANG XuHu (author) / WANG HuoPing (author) / WANG DongFei (author) / DOU XiaoPeng (author)

    Published in:

    Jixie qiangdu, Vol 41, Pp 611-617 (2019)

    Publication date:

    2019

    ISSN:

    1001-9669

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    2024-T62 aluminum alloy , Fatigue crack growth , Distribution rule , Statistical variables , Crack exceedance probability , 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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