Strategies for residual stress adjustment in bulk metal forming

A. Franceschi, J. Stahl, C. Kock, R. Selbmann, S. Ortmann-Ishkina, A. Jobst, M. Merklein, B. Kuhfuß, M. Bergmann, B. A. Behrens, W. Volk, P. Groche

Research output: Contribution to journalReview articlepeer-review

12 Scopus citations

Abstract

The family of bulk forming technologies comprises processes characterised by a complex three-dimensional stress and strain state. Besides shape and material properties, also residual stresses are modified during a bulk metal forming process. The state of residual stresses affects important properties, like fatigue behaviour and corrosion resistance. An adjustment of the residual stresses is possible through subsequent process steps such as heat treatments or mechanical surface modification technologies, like shot peening and deep rolling. However, these additional manufacturing steps involve supplementary costs, longer manufacturing times and harmful effects on the product quality. Therefore, an optimized strategy consists in a targeted introduction of residual stresses during the forming processes. To enable this approach, a fundamental understanding of the underlying mechanisms of residual stress generation in dependence of the forming parameters is necessary. The current state of the art is reviewed in this paper. Strategies for the manipulation of the residual stresses in different bulk forming processes are classified according to the underlying principles of process modification.

Original languageEnglish
Pages (from-to)3557-3577
Number of pages21
JournalArchive of Applied Mechanics
Volume91
Issue number8
DOIs
StatePublished - Aug 2021

Keywords

  • Bulk forming
  • Cold forming
  • Hot forming
  • Manufacturing
  • Residual stress

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