Process Effects in Short Cycle Stretch Forming of Tinplate Can Bodies

Matthias Schneider; Mathias Liewald

doi:10.4028/www.scientific.net/KEM.716.494

Paper Titles

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Prevention of Local Thinning and Springback in Hot Stamping of Thin Sheets
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Process Effects in Short Cycle Stretch Forming of Tinplate Can Bodies
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Ultrasonic Wave Propagation Analysis for In-Process Monitoring of Stamping
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HomeKey Engineering MaterialsKey Engineering Materials Vol. 716Process Effects in Short Cycle Stretch Forming of...

Process Effects in Short Cycle Stretch Forming of Tinplate Can Bodies

Abstract:

Short Cycle Stretch Forming (SCS) is an innovative stretch forming technology developed at the Institute for Metal Forming Technology (IFU) at the University of Stuttgart. The SCS technology combines plane pre-stretching of blank and subsequent deep drawing operations within the same stroke of press ram. The sheet metal thickness is reduced while denting resistance and yield stress increases due to hardening effects.Current research work focuses on applying SCS-technology to rotational-symmetrical bodies. A process simulation for SCS-Cupping process was performed for food cans. Based on these results a tool was manufactured and commissioned. The results showed that the thickness of cup bottoms of two-piece drawn and ironed (D&I) steel cans can be reduced. Therefore, it is possible to save material costs in serial production based on a reduced blank diameter.In this paper the different effects leading to the thinning of steel can bottom and failure types, such as, wrinkling and cracking are observed in a number of experimental series. Based on these results, the tool geometry was optimized and an advanced tool was manufactured. The results of this paper show that SCS-Cupping offers promising potential to save material, as well as outlining the main effects for this technology.

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Periodical:

Key Engineering Materials (Volume 716)

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494-501

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.716.494

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Online since:

October 2016

Authors:

Matthias Schneider*, Mathias Liewald

Keywords:

Sheet Metal, Stretch Forming, Tinplate, Tool Geometry

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