Advanced search
1 file | 709.92 KB Add to list

Origin of the {h 1 1}<1/h,1,2> fiber in single phase ferrite steels

Author
Organization
Abstract
In the present work, the oriented nucleation origin of the recrystallized {h11}< 1/h,1,2 > fibre is characterized. Aiming to investigate the substructural evolution of < 110 > 1/RD fibre grains and {001}< 110 > grains in particular, a detailed microstructure and texture analysis is performed by high resolution orientation scanning microscopy on a cross-rolled sample. The reason to work with cross-rolled material is the increased incidence of rotated cube orientations after cross rolling. The present data have revealed the presence in the deformed substructure of a crystallite volume that has rotated towards the {311}< 136 > component in the interior of < 110 >//RD fibre grains as a result of a grain fragmentation process. Preliminary simulations of the deformation texture suggested that the observed orientation fragmentation might be produced by strain localizations of a shear band nature.
Keywords
Recrystallization, texture, nucleation mechanism, RECRYSTALLIZATION, IF STEEL

Downloads

  • (...).pdf
    • full text
    • |
    • UGent only
    • |
    • PDF
    • |
    • 709.92 KB

Citation

Please use this url to cite or link to this publication:

MLA
Gobernado, Patricia, Roumen Petrov, J Moerman, et al. “Origin of the {h 1 1}<1/h,1,2> Fiber in Single Phase Ferrite Steels.” Materials Science Forum. Ed. EJ Palmiere & BP Wynne. Vol. 715–716. Stafa-Zürich, Switzerland: Trans Tech Publications, 2012. 134–139. Print.
APA
Gobernado, P., Petrov, R., Moerman, J., Barbatti, C., & Kestens, L. (2012). Origin of the {h 1 1}<1/h,1,2> fiber in single phase ferrite steels. In E. Palmiere & B. Wynne (Eds.), Materials Science Forum (Vol. 715–716, pp. 134–139). Presented at the 4th International conference on Recrystallization and Grain Growth (ReX & GG 2010), Stafa-Zürich, Switzerland: Trans Tech Publications.
Chicago author-date
Gobernado, Patricia, Roumen Petrov, J Moerman, C Barbatti, and Leo Kestens. 2012. “Origin of the {h 1 1}<1/h,1,2> Fiber in Single Phase Ferrite Steels.” In Materials Science Forum, ed. EJ Palmiere and BP Wynne, 715-716:134–139. Stafa-Zürich, Switzerland: Trans Tech Publications.
Chicago author-date (all authors)
Gobernado, Patricia, Roumen Petrov, J Moerman, C Barbatti, and Leo Kestens. 2012. “Origin of the {h 1 1}<1/h,1,2> Fiber in Single Phase Ferrite Steels.” In Materials Science Forum, ed. EJ Palmiere and BP Wynne, 715-716:134–139. Stafa-Zürich, Switzerland: Trans Tech Publications.
Vancouver
1.
Gobernado P, Petrov R, Moerman J, Barbatti C, Kestens L. Origin of the {h 1 1}<1/h,1,2> fiber in single phase ferrite steels. In: Palmiere E, Wynne B, editors. Materials Science Forum. Stafa-Zürich, Switzerland: Trans Tech Publications; 2012. p. 134–9.
IEEE
[1]
P. Gobernado, R. Petrov, J. Moerman, C. Barbatti, and L. Kestens, “Origin of the {h 1 1}<1/h,1,2> fiber in single phase ferrite steels,” in Materials Science Forum, Sheffield, UK, 2012, vol. 715–716, pp. 134–139.
@inproceedings{4090153,
  abstract     = {In the present work, the oriented nucleation origin of the recrystallized {h11}< 1/h,1,2 > fibre is characterized. Aiming to investigate the substructural evolution of < 110 > 1/RD fibre grains and {001}< 110 > grains in particular, a detailed microstructure and texture analysis is performed by high resolution orientation scanning microscopy on a cross-rolled sample. The reason to work with cross-rolled material is the increased incidence of rotated cube orientations after cross rolling. The present data have revealed the presence in the deformed substructure of a crystallite volume that has rotated towards the {311}< 136 > component in the interior of < 110 >//RD fibre grains as a result of a grain fragmentation process. Preliminary simulations of the deformation texture suggested that the observed orientation fragmentation might be produced by strain localizations of a shear band nature.},
  author       = {Gobernado, Patricia and Petrov, Roumen and Moerman, J and Barbatti, C and Kestens, Leo},
  booktitle    = {Materials Science Forum},
  editor       = {Palmiere, EJ and Wynne, BP},
  isbn         = {9783037853900},
  issn         = {0255-5476},
  keywords     = {Recrystallization,texture,nucleation mechanism,RECRYSTALLIZATION,IF STEEL},
  language     = {eng},
  location     = {Sheffield, UK},
  pages        = {134--139},
  publisher    = {Trans Tech Publications},
  title        = {Origin of the {h 1 1}<1/h,1,2> fiber in single phase ferrite steels},
  url          = {http://dx.doi.org/10.4028/www.scientific.net/MSF.715-716.134},
  volume       = {715-716},
  year         = {2012},
}

Altmetric
View in Altmetric
Web of Science
Times cited: