Junehyung Kim scite author profile

Keywords:Friction stir welding Tailor-welded blanks Aluminum alloy sheets Dual-phase steel sheets Combined isotropic-kinematic hardening Anisotropic yield functions Forming limit diagram M-K theory a b s t r a c t In order to evaluate the macroscopic performance of friction stir welded automotive tailor welded blank (TWB) sheets, the hardening behavior, anisotropic yielding properties and forming limit diagram were characterized both for base (material) and weld zones. In order to describe the Bauschinger and transient hardening behaviors as well as permanent softening during reverse loading, the modified Chaboche type combined isotropic-kinematic hardening law was applied. As for anisotropic yielding, the non-quadratic anisotropic yield function, Yld2000-2d, was utilized for base material zones, while isotropy was assumed for weld zones for simplicity. As for weld zones, hardening properties were obtained using the rule of mixture and selectively by direct measurement using sub-sized specimens. Forming limit diagrams were measured for base materials but calculated for weld zones based on Hill's bifurcation and M-K theories. In this work, four automotive sheets were considered: aluminum alloy 6111-T4, 5083-H18, 5083-O and dual-phase steel DP590 sheets, each having one or two thicknesses. Base sheets with the same and different thicknesses were friction-stir welded for tailor-welded blank (TWB) samples.

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Formability evaluation of friction stir welded 6111-T4 sheet with respect to joining material direction

Kim

Lee

Kim

et al. 2010

International Journal of Mechanical Sciences

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Macro-performance evaluation of friction stir welded automotive tailor-welded blank sheets: Part II – Formability

Kim

Lee

Kim

et al. 2010

International Journal of Solids and Structures

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a b s t r a c tFormability of automotive friction stir welded TWB (tailor-welded blank) sheets was experimentally and numerically investigated in this work for four automotive sheets, aluminum alloy 6111-T4, 5083-H18, 5083-O and DP590 steel sheets, each having one or two different thicknesses. In particular, formability in three applications including the simple tension test with various weld line directions, hemisphere dome stretching and cylindrical cup drawing tests was evaluated. For numerical simulations, mechanical properties previously characterized in a joint paper (Chung et al., 2010) were utilized. To represent the mechanical properties, the non-quadratic orthogonal anisotropic yield function, Yld2000-2d, was utilized along with the (full) isotropic hardening law, while the anisotropy of the weld zone was ignored for simplicity.

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Constitutive law for AZ31B Mg alloy sheets and finite element simulation for three-point bending

Kim

Ryou

Kim

et al. 2008

International Journal of Mechanical Sciences

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Junehyung Kim

Experimental and numerical study on formability of friction stir welded TWB sheets based on hemispherical dome stretch tests

Macro-performance evaluation of friction stir welded automotive tailor-welded blank sheets: Part I – Material properties

Formability evaluation of friction stir welded 6111-T4 sheet with respect to joining material direction

Macro-performance evaluation of friction stir welded automotive tailor-welded blank sheets: Part II – Formability

Constitutive law for AZ31B Mg alloy sheets and finite element simulation for three-point bending

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