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    DAMAGE PARAMETERS IDENTIFICATION OF ALUMINUM ALLOY BASED ON ANISOTROPIC GTN MODEL

    New search for: XIAO Jin
    New search for: HU YuMei
    New search for: JIN Xiaoqing
    New search for: CHEN Minzhi
    New search for: ZHOU YingE
    New search for: SHAO JinHua

    In this paper,the GTN damage model coupled with anisotropic yield criteria were implemented by establishing a user defined subroutine under the framework of LS-DYNA/Explicit finite element code. Taking 6016 aluminum alloy as the research object,the GTN damage parameters were identified by comparing the numerical and experimental tensile results. Using traditional inverse calibration method of regarding the force versus displacement curve as the only judgment criteria,a group of GTN parameters was determined,and also take into account of the fracture and the necking behavior,another group of GTN parameters was determined. Then the two groups of GTN parameters were applied to the tensile process simulation of 6016 aluminum alloy in turn. The results showed that the first group of GTN parameter cannot accurately reflect the actual fracture and the necking behavior,while using the second group of GTN parameters,the simulation results are in good agreement with the experimental results.

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    DAMAGE PARAMETERS IDENTIFICATION OF ALUMINUM ALLOY BASED ON ANISOTROPIC GTN MODEL

    New search for: XIAO Jin
    New search for: HU YuMei
    New search for: JIN Xiaoqing
    New search for: CHEN Minzhi
    New search for: ZHOU YingE
    New search for: SHAO JinHua

    In this paper,the GTN damage model coupled with anisotropic yield criteria were implemented by establishing a user defined subroutine under the framework of LS-DYNA/Explicit finite element code. Taking 6016 aluminum alloy as the research object,the GTN damage parameters were identified by comparing the numerical and experimental tensile results. Using traditional inverse calibration method of regarding the force versus displacement curve as the only judgment criteria,a group of GTN parameters was determined,and also take into account of the fracture and the necking behavior,another group of GTN parameters was determined. Then the two groups of GTN parameters were applied to the tensile process simulation of 6016 aluminum alloy in turn. The results showed that the first group of GTN parameter cannot accurately reflect the actual fracture and the necking behavior,while using the second group of GTN parameters,the simulation results are in good agreement with the experimental results.

    Access

    Download

    DAMAGE PARAMETERS IDENTIFICATION OF ALUMINUM ALLOY BASED ON ANISOTROPIC GTN MODEL

    New search for: XIAO Jin
    New search for: HU YuMei
    New search for: JIN Xiaoqing
    New search for: CHEN Minzhi
    New search for: ZHOU YingE
    New search for: SHAO JinHua

    In this paper,the GTN damage model coupled with anisotropic yield criteria were implemented by establishing a user defined subroutine under the framework of LS-DYNA/Explicit finite element code. Taking 6016 aluminum alloy as the research object,the GTN damage parameters were identified by comparing the numerical and experimental tensile results. Using traditional inverse calibration method of regarding the force versus displacement curve as the only judgment criteria,a group of GTN parameters was determined,and also take into account of the fracture and the necking behavior,another group of GTN parameters was determined. Then the two groups of GTN parameters were applied to the tensile process simulation of 6016 aluminum alloy in turn. The results showed that the first group of GTN parameter cannot accurately reflect the actual fracture and the necking behavior,while using the second group of GTN parameters,the simulation results are in good agreement with the experimental results.

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    Download

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    Download

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    Title:

    DAMAGE PARAMETERS IDENTIFICATION OF ALUMINUM ALLOY BASED ON ANISOTROPIC GTN MODEL

    Contributors:

    XIAO Jin (author) / HU YuMei (author) / JIN Xiaoqing (author) / CHEN Minzhi (author) / ZHOU YingE (author) / SHAO JinHua (author)

    Published in:

    Jixie qiangdu, Vol 40, Pp 1189-1193 (2018)

    Publication date:

    2018

    ISSN:

    1001-9669

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Aluminum alloy , GTN damage model , Identification of GTN parameters , Judgement criterion , Fracture , 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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