Effect of biaxial loads on elastic-plastic J and crack tip constraint for cracked plates: Finite element study

Yun Jae Kim, Ki Hyun Chung, Jin Su Kim, Young Jin Kim

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    21 Citations (Scopus)

    Abstract

    Based on detailed two-dimensional (2-D) and three-dimensional (3-D) finite element (FE) analyses, this paper attempts to quantify in-plane and out-of-plane constraint effects on elastic-plastic J and crack tip stresses for a plate with a through-thickness crack and semi-elliptical surface crack under positive biaxial loading. For the plate with a through-thickness crack, plate thickness and relative crack length are systematically varied, whereas for the plate with a semi-elliptical surface crack, the relative crack depth and aspect ratio of the semi-elliptical crack are systematically varied. It is found that the reference stress based approach for uniaxial loading can be applied to estimate J under biaxial loading, provided that the limit load specific to biaxial loading is used, implying that quantification of the biaxiality effect on the limit load is important. Investigation on the effect of biaxiality on the limit load suggests that for relatively thin plates with small cracks, in particular with semi-elliptical surface cracks, the effect of biaxiality on the limit load can be neglected for positive biaxial loading, and thus elastic-plastic J for a biaxially loaded plate could be estimated, assuming that such plate is subject to uniaxial load. Regarding the effect of biaxiality on crack tip stress triaxiality, it is found that such effect is more pronounced for a thicker plate. For plates with semi-elliptical surface cracks, the crack aspect ratio is found to be more important than the relative crack depth, and the effect of biaxiality on crack tip stress triaxiality is found to be more pronounced near the surface points along the crack front.

    Original languageEnglish
    Pages (from-to)803-825
    Number of pages23
    JournalInternational Journal of Fracture
    Volume130
    Issue number4
    DOIs
    Publication statusPublished - 2004 Dec

    Bibliographical note

    Funding Information:
    The authors are grateful for the support provided by a grant from Safety and Structural Integrity Research Centre at Sungkyunkwan University.

    Keywords

    • Bi-axial load
    • Crack tip constraint
    • Finite element
    • J-integral
    • Semi-elliptical surface crack

    ASJC Scopus subject areas

    • Computational Mechanics
    • Modelling and Simulation
    • Mechanics of Materials

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