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Generation mechanism of residual stress at press-blanked and laser-blanking edges of 1.5 GPa ultra-high strength steel sheet

Authors :
Ken-ichiro Mori
Yohei Abe
Naotaka Nakamura
Yuta Uehara
Source :
Journal of Manufacturing Processes. 68:435-444
Publication Year :
2021
Publisher :
Elsevier BV, 2021.

Abstract

The generation mechanism of the residual stress at press-blanked and laser-blanked edges of a 1.5 GPa ultra-high strength martensite steel sheet was investigated. The residual stress at the press-blanked edges of the 1.5 GPa sheet is highly tensile, whereas the residual stress at the laser-blanked edges is compressive. The high tensile residual stress causes the occurrence of hydrogen-induced delayed cracking and the reduction in fatigue strength. In press blanking of the 1.5 GPa sheet, considerably high compressive stress was generated under the punch corner just before the separation due to a small critical punch stroke, and high tensile residual stress on the fracture surface of the blanked edge was induced by releasing this high compressive stress for the separation. Not only the high strength of the 1.5 GPa sheet but also the low ductility influences the generation of the high tensile residual stress on the fracture surface because of the small critical stroke. On the other hand, the compressive residual stress at the laser-blanked edges of the 1.5 GPa sheet was generated by the volume increase of the martensite transformation at a comparatively low temperature. In addition, an approach for determining the allowable amount of hydrogen for the occurrence of delayed cracking at the edges was proposed, and the relationship between the critical residual stress and the amount of hydrogen for the 1.5 GPa sheet was obtained.

Details

ISSN :
15266125
Volume :
68
Database :
OpenAIRE
Journal :
Journal of Manufacturing Processes
Accession number :
edsair.doi...........5bd4513c9439fbfaafc9e8bbf5a5af2f
Full Text :
https://doi.org/10.1016/j.jmapro.2021.05.047