Daniel Rosenbusch scite author profile

Daniel Rosenbusch

4Publications

23Citation Statements Received

16Citation Statements Given

How they've been cited

How they cite others

Affiliations

Institut für Umformtechnik (Germany), Leibniz University Hannover, Fraunhofer Institute for Machine Tools and Forming Technology

Publications

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Numerical and Experimental Investigations of Multistage Sheet-Bulk Metal Forming Process with Compound Press Tools

Behrens

Bouguecha

Vucetic

et al. 2015

KEM

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Sheet-bulk metal forming is a manufacturing technology, which allows to produce a solid metal component out of a flat sheet. This paper focuses on numerical and experimental investigations of a new multistage forming process with compound press tools. The complete process sequence for the production of this solid metal component consists of three forming stages, which include a total of six production techniques. The first forming stage includes deep drawing, simultaneous cutting and following wall upsetting. In the second forming stage, flange forming combined with cup bottom ironing takes place. In the last stage of the process sequence, the component is sized. To investigate and to improve process parameters such as plastic strain distribution, resulting dimensions and process forces, FEA is performed. Based on these results the developed process is designed.

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New Multistage Sheet-Bulk Metal Forming Process Using Oscillating Tools

Behrens

Hübner

Müller

et al. 2020

Metals

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A new sheet-bulk metal forming process for the production of bulk components out of a flat sheet has been developed. Superimposed oscillation has been applied to the new process. By this means, process limits regarding better mould filling were expanded, and forming forces could be reduced. In order to investigate the effects of superimposed oscillation on material behaviour, plane strain and ring compression tests were carried out. The superimposed oscillated plane strain compression test showed a reduction in biaxial flow stress and thus in plastic work. Furthermore, reduced friction and roughness were verified in ring compression tests using superimposed oscillation.

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Static and oscillation superimposed ring compression tests with structured and coated tools for Sheet-Bulk Metal Forming

Behrens

Meijer

Stangier

et al. 2020

Journal of Manufacturing Processes

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Numerical die life estimation of a crack susceptible industrial hot forging process

Bouguecha¹,

Behrens²,

Bonk³

et al. 2017

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