Advanced search

Relative preference for strain localizations in ultra low carbon steel

(2009) CERAMIC TRANSACTIONS. 200. p.217-221
Author
Organization
Abstract
Hot rolled ultra low carbon steel was deformed at different strain, strain rate and temperatures. The developments of stored energy, in-grain misorientation and relative presence of grain interior strain localizations were monitored as a function of deformation conditions. Relative maxima in all these were observed in the intermediate deformation temperatures for the highest reduction. An explanation is sought in terms of a balance between textural and dislocation softening.
Keywords
TEXTURE, SHEAR BANDS, RECRYSTALLIZATION

Citation

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

Chicago
Khatirkar, R, Leo Kestens, Roumen Petrov, and I Samajdar. 2009. “Relative Preference for Strain Localizations in Ultra Low Carbon Steel.” In Ceramic Transactions, ed. AD Rollett, 200:217–221. Westerville, OH, USA ; Hoboken, NJ, USA: American Ceramic Society ; John Wiley & Sons.
APA
Khatirkar, R., Kestens, L., Petrov, R., & Samajdar, I. (2009). Relative preference for strain localizations in ultra low carbon steel. In A. Rollett (Ed.), CERAMIC TRANSACTIONS (Vol. 200, pp. 217–221). Presented at the 15th International conference on the Texture of Materials (ICOTOM 15), Westerville, OH, USA ; Hoboken, NJ, USA: American Ceramic Society ; John Wiley & Sons.
Vancouver
1.
Khatirkar R, Kestens L, Petrov R, Samajdar I. Relative preference for strain localizations in ultra low carbon steel. In: Rollett A, editor. CERAMIC TRANSACTIONS. Westerville, OH, USA ; Hoboken, NJ, USA: American Ceramic Society ; John Wiley & Sons; 2009. p. 217–21.
MLA
Khatirkar, R, Leo Kestens, Roumen Petrov, et al. “Relative Preference for Strain Localizations in Ultra Low Carbon Steel.” Ceramic Transactions. Ed. AD Rollett. Vol. 200. Westerville, OH, USA ; Hoboken, NJ, USA: American Ceramic Society ; John Wiley & Sons, 2009. 217–221. Print.
@inproceedings{1045828,
  abstract     = {Hot rolled ultra low carbon steel was deformed at different strain, strain rate and temperatures. The developments of stored energy, in-grain misorientation and relative presence of grain interior strain localizations were monitored as a function of deformation conditions. Relative maxima in all these were observed in the intermediate deformation temperatures for the highest reduction. An explanation is sought in terms of a balance between textural and dislocation softening.},
  author       = {Khatirkar, R and Kestens, Leo and Petrov, Roumen and Samajdar, I},
  booktitle    = {CERAMIC TRANSACTIONS},
  editor       = {Rollett, AD},
  isbn         = {9780470408346},
  issn         = {1042-1122},
  keyword      = {TEXTURE,SHEAR BANDS,RECRYSTALLIZATION},
  language     = {eng},
  location     = {Pittsburgh, PA, USA},
  pages        = {217--221},
  publisher    = {American Ceramic Society ; John Wiley \& Sons},
  title        = {Relative preference for strain localizations in ultra low carbon steel},
  url          = {http://dx.doi.org/10.1002/9780470444191.ch23},
  volume       = {200},
  year         = {2009},
}

Altmetric
View in Altmetric
Web of Science
Times cited: