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    COMPLEX STRUCTURE LIFE CALCULATION PLATFORM BASED ON SECONDARY DEVELOPMENT OF ABAQUS

    New search for: JIANG RenJie
    New search for: YANG XiaoGuang
    New search for: SHI DuoQi
    New search for: DONG ChengLi
    New search for: GUO GuangPing

    The critieal distance theory is suitable for caleulating the creep-fatigue life of complex structures, but the calculation efficiency of this method is very low in engineering. To overcome this shortcoming, Python language was used for the secondary development of Abaqus software. The developed software can calculate the creep-fatigue life of the structure by using the critical distance method. To improve analytical efficiency, various functions were developed in the software, including model information extraction, material parameter import and calculation result output, ete. The applicability of the software was verified by analyzing a high-pressure turbine blade. The results show that the software can efficiently calculate the creep-fatigue life of complex structures by simplifying the steps of the critical distance method, and it has certain engineering value.

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    COMPLEX STRUCTURE LIFE CALCULATION PLATFORM BASED ON SECONDARY DEVELOPMENT OF ABAQUS

    New search for: JIANG RenJie
    New search for: YANG XiaoGuang
    New search for: SHI DuoQi
    New search for: DONG ChengLi
    New search for: GUO GuangPing

    The critieal distance theory is suitable for caleulating the creep-fatigue life of complex structures, but the calculation efficiency of this method is very low in engineering. To overcome this shortcoming, Python language was used for the secondary development of Abaqus software. The developed software can calculate the creep-fatigue life of the structure by using the critical distance method. To improve analytical efficiency, various functions were developed in the software, including model information extraction, material parameter import and calculation result output, ete. The applicability of the software was verified by analyzing a high-pressure turbine blade. The results show that the software can efficiently calculate the creep-fatigue life of complex structures by simplifying the steps of the critical distance method, and it has certain engineering value.

    Access

    Download

    COMPLEX STRUCTURE LIFE CALCULATION PLATFORM BASED ON SECONDARY DEVELOPMENT OF ABAQUS

    New search for: JIANG RenJie
    New search for: YANG XiaoGuang
    New search for: SHI DuoQi
    New search for: DONG ChengLi
    New search for: GUO GuangPing

    The critieal distance theory is suitable for caleulating the creep-fatigue life of complex structures, but the calculation efficiency of this method is very low in engineering. To overcome this shortcoming, Python language was used for the secondary development of Abaqus software. The developed software can calculate the creep-fatigue life of the structure by using the critical distance method. To improve analytical efficiency, various functions were developed in the software, including model information extraction, material parameter import and calculation result output, ete. The applicability of the software was verified by analyzing a high-pressure turbine blade. The results show that the software can efficiently calculate the creep-fatigue life of complex structures by simplifying the steps of the critical distance method, and it has certain engineering value.

    Access

    Download

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    Download

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    Document information
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    Document information
    Title:

    COMPLEX STRUCTURE LIFE CALCULATION PLATFORM BASED ON SECONDARY DEVELOPMENT OF ABAQUS

    Contributors:

    JIANG RenJie (author) / YANG XiaoGuang (author) / SHI DuoQi (author) / DONG ChengLi (author) / GUO GuangPing (author)

    Published in:

    Jixie qiangdu, Vol 46, Pp 216-223 (2024)

    Publication date:

    2024

    ISSN:

    1001-9669

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Complex structure , Life calculation , Python , ABAQUS second-development , Critical distance theory , 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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