Finite Element Modeling of a Non-Isothermal Superplastic-Like Forming Process

Liu, Jun; Tan, Ming Jen; Castagne, Sylvie; Aue‐u‐lan, Yingyot; Jarfors, Anders E. W.; Fong, Kai‐Soon; Bayraktar, E.

doi:10.1063/1.3552472

AIP Conference Proceedings

2011

DOI: 10.1063/1.3552472

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Finite Element Modeling of a Non-Isothermal Superplastic-Like Forming Process

Jun Liu¹,

Ming Jen Tan²,

Sylvie Castagne³

et al.

Abstract: Conventional superplastic forming (SPF) has been modified to increase the productivity and reduce some of the drawbacks, such as high forming temperature and high percentage thinning, to suit the automotive industries. One of the modifications was to combine between the conventional SPF and the use of a mechanical preformed blank to form the nonsuperplastic grade aluminum alloy (AA5083-O). The requirement of high temperature usually results in microstructural defects during forming process. In this paper, fini… Show more

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2012

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EBSD Study of Microstructural Development during Superplastic-Like Forming

Liu

Tan

Castagne

et al. 2012

MSF

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Superplastic-like forming takes advantages of both deep drawing and bulge forming. The use of non-superplastic grade materials enables it to be more compatible with existing forming process with less material and time cost. Here, a non-isothermal heating system was adopted to selectively heat up selected localized areas to form the workpiece more efficiently. Electron backscattered diffraction (EBSD) was then used to investigate the wide range of grains in the formed samples resulting from elevated-temperature and large-strain deformation. The crystallographic textures of the material before and after deformation were observed for comparison. Very little recrystallization was found in the midst of the deformed grains. Considerable amount of elongated grains with high angle boundaries were produced during deformation. Many subgrain boundaries have developed within the big grains due to dynamic recovery.

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EBSD Study of Microstructural Development during Superplastic-Like Forming

Liu

Tan

Castagne

et al. 2012

MSF

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show abstract

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Finite Element Modeling of a Non-Isothermal Superplastic-Like Forming Process

Cited by 1 publication

References 8 publications

EBSD Study of Microstructural Development during Superplastic-Like Forming

EBSD Study of Microstructural Development during Superplastic-Like Forming

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