Journal
JOURNAL OF MATERIALS PROCESSING TECHNOLOGY
Volume 257, Issue -, Pages 33-44Publisher
ELSEVIER SCIENCE SA
DOI: 10.1016/j.jmatprotec.2018.02.028
Keywords
Hot stamping; Tailor welded blank; Failure mode; Loading path; Localised necking
Funding
- Innovate UK, LightBlank project [131818]
- Open Research Fund of State Key Laboratory of High Performance Complex Manufacturing, Central South University [Kfkt2016-02]
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A novel sheet metal forming process, by manufacturing parts in a single sheet with varying thickness, has been employed in this work. It combines hot forming and cold -die quenching, also known as HFQ((R)), and the use of aluminium tailor welded blanks (TWBs) into a hybrid process. A series of hot stamping tests on the AA6082 TWBs were performed to investigate the deformation behaviour and failure features. Two failure modes, i.e. circumferential necking and parallel weld necking have been observed in the formed parts depending on the forming speed and thickness ratio of the TWBs. An advanced forming limit prediction model has been developed and further integrated into finite element simulation via a cloud -based multi -objective platform' to investigate the failure/necking features of AA6082 TWBs. The model incorporates the theories of Hosford yield function, the anisotropic nature of plastic deformation in sheet metals and the Marciniak-Kaczynski (M -K) theory. According to the theories, the incremental work per unit volume ratio (d epsilon(-)(B) center dot sigma(-)(B)/d epsilon(-)(A)center dot sigma(-)(A)) between Zone B (thickness imperfect zone) and Zone A (the remainder of the material) is a key parameter determining the formability, by which the complex failure features have been fundamentally studied. The transition of failure mode in a TWB was attributed to the joint effects of temperature, strain rate and loading path changes. Strain rate could accelerate the development of localised necking in the TWBs when the failure mode was in transition from the circumferential mode to parallel mode.
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