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Home  >  Journal list  >  MATERIALS TRANSACTIONS  >  Vol.53  No.4 (2012)  >  pp.652-657

<<Previous article Vol.53  No.4 (2012)   pp.652 - 657 Next article>>

Effects of Two-Step Cold Rolling on Recrystallization Behaviors in ODS Ferritic Steel

Bin Leng1), Shigeharu Ukai1), Takeshi Narita1), Yoshito Sugino1), Qingxin Tang1), Naoko Oono1), Shigenari Hayashi1), Farong Wan2), Satoshi Ohtsuka3) and Takeji Kaito3)
1) Material Science and Engineering, Faculty of Engineering, Hokkaido University
2) School of Materials Science and Engineering, University of Science and Technology Beijing
3) Advanced Nuclear System Research and Development Directorate, Japan Atomic Energy Agency

The recrystallization behaviors of Fe–15Cr ODS ferritic steels underwent two different processing routes were compared; (a) 1st 70% cold rolling + intermediate annealing, (b) 1st 70% cold rolling + intermediate annealing at 1100°C to make a recrystallization structure +2nd 70% cold rolling + final annealing. Hardness and texture changes during rolling and isochronal annealing were investigated. Results show that the recrystallization temperature of 70% cold rolled specimen is 950°C and the recrystallization texture is {111}<112>. On the contrary, in the case of specimen which was cold rolled for two times, the recrystallization temperature increases to 1100°C, and the recrystallization texture changes to {111}<110>. These changes are ascribed to the different routes of crystalline rotation during 1st and 2nd cold rolling, which produce different cold rolling texture. Higher {100}<110> content induced by 2nd cold rolling after intermediate recrystallization which has low stored energy increases the recrystallization temperature. And the difference in texture intensity along γ fibre after 1st and 2nd cold rolling results in different recrystallization texture.

oxide-dispersion-strengthened (ODS) ferritic steel, multiple cold rolling, intermediate annealing, crystalline rotation

Received: September 29, 2011
Accepted: January 23, 2012 , Published online: March 25, 2012
Copyright (c) 2012 The Japan Institute of Metals



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