Paper Titles

Study of Grain Growth Kinetics in Submicrocrystalline Armco-Iron
p.465

Intercritical Annealing Behaviour of an Ultrafine Grained C-Mn Steel Obtained by Hot Torsion Deformation
p.471

Overview of Texture Evolution during Friction Stir Welding of Stainless Steel Using Crystal Plasticity and EBSD
p.479

Tracing the Goss Orientation during Deformation and Annealing of an FeSi Single Crystal
p.485

Orientation Selection in ULC Steel during Thermally Activated Phenomena Induced by Cold Deformation
p.491

Retention of the ‹001› Fiber Texture for Fe-Si Electric Motor Steels
p.497

Surface Texture Evolution during α-γ-α Transformation in Mn and Al Alloyed Ultra-Low Carbon Steel
p.503

Texture and Microstructure Variation in Severe Plastic Deformed OFHC Cu Wires
p.509

Recrystallization Texture of Copper as a Function of Layer Thickness in Roll-Bonded Cu-Nb Composites
p.515

HomeMaterials Science ForumMaterials Science Forum Vol. 550Orientation Selection in ULC Steel during...

Orientation Selection in ULC Steel during Thermally Activated Phenomena Induced by Cold Deformation

Article Preview

Abstract:

The scope of this work was to study the physical metallurgical behaviour of the microstructure and the texture of ultra low carbon (ULC) steel during cold rolling and subsequent thermally activated phenomena. It was the intention to contribute to the scientific search for the answer to many open questions raised in recent literature. The powerful tool of quantitative texture analysis, together with modern measurement equipment was used for this purpose. At first, a ULC steel was cold rolled to two different rolling reductions and the local strain heterogeneities after the cold rolling were studied. Secondly, crystallographic orientation selection during primary recrystallization was considered both for cold rolled ULC steel and for a Fe-2.8%Si single crystal. The latter was a re-evaluation of the historic growth selection experiment by Ibe and Lücke. Finally, secondary recrystallization in ULC steels was evaluated in terms of oriented nucleation and selective growth.

You might also be interested in these eBooks

Fundamentals of Deformation and Annealing

Info:

Periodical:

Materials Science Forum (Volume 550)

Pages:

491-496

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.550.491

Citation:

Cite this paper

Online since:

July 2007

Authors:

Kim Verbeken, Leo A.I. Kestens

Keywords:

Abnormal Grain Growth, Cold Deformation, Orientation Selection, Recrystallization, Steel

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2007 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

[1] K. Verbeken: Ph-D dissertation (Ghent University, Belgium 2004).

[2] F.J. Humphreys and M. Hatherly: Recrystallization and Related Annealing Phenomena, 2nd edition (Elsevier, UK 2004).

[3] R.D. Doherty, D.A. Hughes, F.J. Humphreys, J.J. Jonas, D. Juul Jensen, M.E. Kassner, W.E. King, T.R. McNelley, H.J. McQueen and A.D. Rollett, Mat. Sc. and Eng., Vol. 238 (1997), p.219.

DOI: 10.1016/s0921-5093(97)00424-3

[4] Proc. 21st Risø Int. Symp. on Materials Science, eds. N. Hansen, X. Huang, D. Juul Jensen et al., Risø National Laboratory, Roskilde, Denmark, (2000).

[5] Proc. 2nd Joint Int. Conf. on Recrystallization and Grain Growth, eds. B. Bacroix et al., Mat. Science Forum, Vols. 467-470, Trans. Tech. Publications, Switzerland, (2004).

[6] Proc. 14th Int. Conf. On Textures of Materials, ICOTOM 14, eds. P. Van Houtte and L. Kestens, Mat. Science Forum, Vols. 495-497, Trans. Tech. Publications, Switzerland, (2005).

[7] I.L. Dillamore, C.J.E. Smith and T.W. Watson: J. Met. Sci. Vol. 1 (1967), p.49.

[8] M.R. Barnett and L. Kestens, ISIJ Vol. 39 (1999), p.923.

[9] G. Ibe and K. Lücke: Archiv für das Eisenhüttenwesen Vol. 39 (1968), p.693.

[10] Y. Hayakawa and J.A. Szpunar: Acta Met. Vol. 45 (1997), p.1285.

[11] W.B. Hutchinson, L. Ryde, P.S. Bate and B. Bacroix: Scripta Mat. Vol. 35 (1996), p.579.

[12] L.S. Toth and J.J. Jonas: Scripta Met. Mat. Vol. 27 (1992), p.359.

[13] J.J. Jonas and L.S. Toth: Scripta Met. Mat. Vol. 27 (1992), p.1575.

[14] K. Verbeken and L. Kestens: Mater. Sci. Forum Vol. 408-412 (2002), p.559.

[15] L. Kestens, K. Verbeken and J.J. Jonas: Physics of Metals and Metall. Vol. 96 (2003), p. S35.

[16] K. Verbeken, L. Kestens and J.J. Jonas: Scripta Mat. Vol. 48 (2003), p.1457.

[17] M.D. Nave, K. Verbeken and L. Kestens: Mater. Sci. Forum Vol. 467-470 (2004), p.165.

[18] K. Verbeken, L. Kestens and M.D. Nave: Acta Mat. Vol. 53 (2005), p.2675.

[19] K. Verbeken and L. Kestens: Acta Mat. Vol. 51 (2003), p.1679.

[20] H. Homma and W.B. Hutchinson: Acta Mat. Vol. 51 (2003), p.3795.

[21] N. Chen, S. Zaefferer, L. Lahn, K. Gunther and D. Raabe, Acta Mat. Vol. 51 (2003), p.1755.

[22] K. Verbeken and L. Kestens: Mater. Sci. Forum Vol. 495-497 (2005), p.1189.

[23] K. Verbeken and L. Kestens: Mater. Sci. Forum Vol. 467-470 (2004), p.941.