Paper Titles

Slip Circle Constructions for Inhomogeneous Rotational Flow
p.105

Applications of Through Process Modelling Developed in VIRSTAR
p.119

Deformation and Recrystallization during Thermomechanical Processing of a Nickel-Base Superalloy Ingot Material
p.129

Static Recovery and the Orthogonal Strain Path Change Effect in IF Steel
p.141

Effects of Stress on Structure Transformations in Metals
p.149

Mechanisms of Formation of Submicron Grain Structures by Severe Deformation
p.159

Global and Local Structural Evolution during Deformation and Annealing of FCC Metals
p.169

Multiple Forging Textures and Microstructures in Al Alloys
p.181

The Dislocation Patterns in Deformed Metals: Dislocation Densities, Distributions and Related Misorientations
p.193

HomeMaterials Science ForumMaterials Science Forum Vol. 550Effects of Stress on Structure Transformations in...

Effects of Stress on Structure Transformations in Metals

Article Preview

Abstract:

Possible effects of stress on the movement of grain boundaries and phase boundaries are considered in terms of available driving forces and mechanisms. Examples of some of these effects are presented from the literature and new experimental results. Stress may influence the kinetics of transformation and also the microstructure and texture of the product material.

You might also be interested in these eBooks

Fundamentals of Deformation and Annealing

Info:

Periodical:

Materials Science Forum (Volume 550)

Pages:

149-158

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.550.149

Citation:

Cite this paper

Online since:

July 2007

Authors:

W. Bevis Hutchinson, Bradley P. Wynne

Keywords:

Grain Boundary, Phase Boundaries, Stress, Texture, Transformation

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2007 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

[1] A.P. Sutton and R.W. Balluffi: Interfaces in Crystalline Materials (Oxford Science, 1995).

[2] M. Hillert: Acta Metall. Vol. 13 (1965), p.227.

[3] B. Hutchinson, L. Ryde and P.S. Bate: Materials Science Forum, Vol. 495-497 (2005) p.1141.

[4] W.T. Read, Dislocations in Crystals (McGraw Hill, 1953).

[5] S. Exell and D.H. Warrington, Phil. Mag. Vol. 26 (1972) p.1121.

[6] J.W. Cahn and J.E. Taylor, Acta Mater. Vol. 52 (2004) p.4887.

[7] M.L. Kronberg and F.H. Wilson, Trans. Met. Soc. AIME Vol. 185 (1949) p.501.

[8] H.B. Aaron and G.F. Bolling, Grain boundary structure and properties, (Academic Press, 1976).

[9] E. Gautier, J.S. Zhang and X.M. Zhang: Suppl. to J. de Physique III Vol. 5 (1995) C8-41.

[10] J.W. Christian, Met. and Mat. Trans. Vol. 25A (1994) p.1821.

[11] C-H. Li, E.H. Edwards, J. Washburn and E.R. Parker, Acta Metall. Vol. 1 (1953) p.223.

[12] M. Winning, G. Gottstein and L.S. Shvindlerman, Acta Mater. Vol. 49 (2001) p.211.

[13] M. Winning, Acta Mater. Vol. 51 (2003) p.6465.

[14] M. Winning, Private communication (2006).

[15] M. Winning, G. Gottstein and L.S. Shvindlerman, Acta Mater. Vol. 50 (2002) p.353.

[16] D.S. Gianola, S. Van Petegem, M. Legros, S. Brandstetter, H. Van Swygenhoven and K.J. Hemker, Acta Mater. Vol. 54 (2006) p.2253.

DOI: 10.1016/j.actamat.2006.01.023

[17] M. Winning, Mater. Sci. Forum, Vol. 495-497 (2005) p.1279.

[18] O. Rod, Unpublished work at KIMAB (2006).

[19] S. Brodesser and G. Gottstein, Textures and Microstructures, Vol. 20 (1993) p.179.

[20] G. Angella, Ph. D thesis, Univ. of Sheffield (2002).

[20] G.W. Greenwood and R.H. Johnson, Proc. Roy. Soc. (London) Vol. 283A (1965) p.403.

[22] A. Matsazuki, H.K.D.H. Bhadeshia and H. Harada, Acta Metall. Mater. Vol. 42 (1994) p.1081.

[23] P.S. Bate, Private communication (2006).