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Philosophical Magazine Volume 93, 2013 - Issue 10-12: Celebrating the career of Jany Thibault-Penisson in the microscopy of defects and interfaces
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Articles

Evidence of grain boundary dislocation step motion associated to shear-coupled grain boundary migration

A. Rajabzadeh CEMES-CNRS, Université de Toulouse, 29 rue J. Marvig, 31055, Toulouse, France
,
M. Legros CEMES-CNRS, Université de Toulouse, 29 rue J. Marvig, 31055, Toulouse, France
,
N. Combe CEMES-CNRS, Université de Toulouse, 29 rue J. Marvig, 31055, Toulouse, France; Université de Toulouse, UPS, 31055, Toulouse, France
,
F. Mompiou CEMES-CNRS, Université de Toulouse, 29 rue J. Marvig, 31055, Toulouse, FranceCorrespondence[email protected]
&
D.A. Molodov Institute of Physical Metallurgy and Metal Physics, RWTH Aachen University, 52056, Aachen, Germany
Pages 1299-1316 | Received 04 Sep 2012, Accepted 14 Dec 2012, Published online: 01 Feb 2013
 
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Abstract

The present work reports dynamical observations of the grain boundary (GB)-mediated plasticity during in situ transmission electron microscopy straining experiments at moderate temperature (400C) both in a 76.4 bicrystalline and a polycrystalline Al sample. We show that the GB migration occurs by the lateral motion of elementary GB dislocation steps. The accumulation of GB dislocation steps eventually form macro-steps. This observation agrees with the idea that GB dislocation steps generally operate in high angle GBs similarly as in twinning or martensitic transformations. The coupling factor, i.e. the strain produced by the motion of the steps was measured using fiducial markers and image correlation. The migration process involves different types of GB dislocation steps, producing different amounts of strain both parallel (coupling factor) and perpendicular to the GB plane.

Acknowledgments

The authors acknowledge D. Caillard and S. Lartigue for fruitful discussions and are grateful to J.E. Brandenburg and D. Lamirault for assistance in bicrystal growth and sample preparation. One of the authors (DM) expresses his gratitude to the Deutsche Forschungsgemeinschaft for financial support (Grant MO 848/14-1).

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