Output details
13 - Electrical and Electronic Engineering, Metallurgy and Materials
University of Birmingham : B - Metallurgy and Materials
Article title
Bauschinger Effect in Microalloyed Steels: Part I. Dependence on Dislocation-Particle Interaction
Type
D - Journal article
Title of journal
Metallurgical and Materials Transactions A
Article number
-
Volume number
41A
Issue number
6
First page of article
1399
ISSN of journal
1073-5623
Year of publication
2010
URL
-
Number of additional authors
2
Additional information
This paper is one of the first to fully relate Bauschinger stress parameters for precipitate strengthened ferritic steels to particle size distributions and dislocation densities. The results indicated, for the first time, that a minimum particle size of around 12 nm is required before particles contribute to the Bauschinger effect and revealed the effect of copper, which rationalised a number of empirical reports. This publication led to another PhD (with Tata Steel, Edwin.Jackson@tatasteel.com) on higher strength grades (bainitic structures), an exchange with Beihang University (S.Wu.1@bham.ac.uk) and to X80 samples from ArecelorMittal.
Interdisciplinary
-
Cross-referral requested
-
Research group
C - Materials Characterisation, Alloy Devlpt and Materials Modelling
Proposed double-weighted
No
Double-weighted statement
-
Reserve for a double-weighted output
No
Non-English
No
English abstract
-
