Vol. 28 No. 1 (2018)
Artículos de Investigación

Analysis of residual stresses in the Roll Hemming Process using the Barkhausen Magnetic Noise

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  • Pablo Alberto Limon Leyva,
  • Eduardo Aguilera Gómez,
  • Héctor Plascencia Mora,
  • Elías Rigoberto Ledesma Orozco,
  • Antonio de Jesús Balvantín García,
  • José Angel Diosdado De la Peña
Pablo Alberto Limon Leyva
Universidad de Guanajuato
Bio
Eduardo Aguilera Gómez
Universidad de Guanajuato
Héctor Plascencia Mora
Universidad de Guanajuato
Elías Rigoberto Ledesma Orozco
Universidad de Guanajuato
Antonio de Jesús Balvantín García
Universidad de Guanajuato
José Angel Diosdado De la Peña
Universidad de Guanajuato
DOI: https://doi.org/10.15174/au.2018.1627

Published 2018-04-13

Keywords

  • Engargolado por rodillo conducido,
  • Ruido Magnético de Barkhausen,
  • esfuerzos residuales.
  • Roll Hemming,
  • Magnetic Barkhausen Noise,
  • residual stresses.

How to Cite

Limon Leyva, P. A., Aguilera Gómez, E., Plascencia Mora, H., Ledesma Orozco, E. R., Balvantín García, A. de J., & Diosdado De la Peña, J. A. (2018). Analysis of residual stresses in the Roll Hemming Process using the Barkhausen Magnetic Noise. Acta Universitaria, 28(1), 57–63. https://doi.org/10.15174/au.2018.1627

Abstract

Hemming is a manufacturing process, consisting on folding a sheet metal onto itself or another sheet metal. In this work, Magnetic Barkhausen Noise (MBN) was implemented for the identification of residual stresses and their variations through the stages of Roll Hemming process. Initially, the inspection process over hemmed ASTM A36 specimens is detailed. For this study, a S6519 probe was selected to perform measurements at 5 different regions on the specimens’ edges, obtaining average values of intensity of MBN for each stage of Roll Hemming process. The variation of the obtained results was identified and discussed. Finally, the analysis of the absence or presence of residual stresses and their effect on the magnetic behavior of the material is presented. Obtained results allow us to determine the feasibility of MBN implementation for the inspection of hemmed parts in production lines.

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