Work Hardening Behaviour of Heat-Treatable Al-Mg-Si-Alloys-Reference-Cited by-同舟云学术

Work Hardening Behaviour of Heat-Treatable Al-Mg-Si-Alloys

Published:2006-07 Issue: Volume:519-521 Page:1901-1906
ISSN:1662-9752
Container-title:Materials Science Forum
language:
Short-container-title:MSF

Author:

Friis Jesper¹,Holmedal Bjørn²,Ryen Øyvind³,Nes Erik²,Myhr Ole R.⁴,Grong Øystein¹,Furu Trond⁵,Marthinsen Knut²

Affiliation:

1. Norwegian University of Science and Technology NTNU

2. Norwegian University of Science and Technology

3. Reinertsen Engineering AS

4. Hydro Aluminium

5. Hydro Aluminium a.s. R&D Materials Technology

Abstract

The work hardening of alloys hardened by precipitate heat treatments depends on the distribution of the precipitate sizes and the solute level left in the metal matrix. A mean field theory for precipitation is first applied for the ageing and subsequently it is coupled to a work hardening model to study the stress-strain responses of age hardened conditions of AA6xxx alloys. The predictions are compared to mechanical experiments and to TEM characterisations.

Publisher

Trans Tech Publications, Ltd.

Subject

Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science

Link

https://www.scientific.net/MSF.519-521.1901.pdf

Reference19 articles.

1. G. A. Edwards, K. Stiller, G. L. Dunlop, and M. J. Couper, Acta mater., vol. 46, pp.3893-3904, (1998).

2. M. Murayama and K. Hono, Acta mater., vol. 47, pp.1537-1548, (1999).

3. C. D. Marioara, S. J. Andersen, J. Jansen, and H. W. Zandbergen, Acta mater., vol. 49, pp.321-328, (2001).

4. S. J. Andersen, H. W. Zandbergen, J. Jansen, C. Træholt, U. Tundal, and O. Reiso, Acta mater., vol. 46, pp.3283-3298, (1998).

5. M. Vivas, P. Lours, C. Levaillant, A. Couret, M. J. Casanove, and A. Coujou, Phil. Mag. A, vol. 76, pp.921-931, (1997).

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