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Deformation and frictional heating in relation to wear in sheet metal stamping
journal contribution
posted on 2010-09-01, 00:00 authored by Michael PereiraMichael Pereira, Paul Okonkwo, W Yan, Bernard RolfeBernard RolfeIn the automotive industry, press production rates often need to be reduced in order to minimize tool wear issues and successfully stamp advanced high strength steels. This indicates that heating affects may be important. This paper examines friction and deformational heating at the die radius during sheet metal stamping, using finite element analysis. The results show that high temperatures, of up to 130°C, can occur at the die radius surface. Such behavior has not been previously reported in the literature, for what is expected to be ‘cold’ sheet metal stamping conditions. It will be shown that the temperature rise is due to the increased contact stresses and increased plastic work, associated with stamping AHSS. Consequently, new insights into the local contact conditions in sheet metal stamping were obtained. The outcomes of this work may impact the wear models and tests employed for future tool wear analyses in sheet metal stamping.
History
Journal
Steel research internationalVolume
81Issue
9Season
Special Issue : Proceedings of the 13th International Conference on Metal FormingPagination
713 - 716Publisher
Wiley – VCH VerlagLocation
Weinheim, GermanyPublisher DOI
ISSN
0177-4832eISSN
1869-344XLanguage
engNotes
Article first published online 27 Jan. 2011Publication classification
C1 Refereed article in a scholarly journalCopyright notice
2010, Wiley-VCH VerlagUsage metrics
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