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Philosophical Magazine Volume 90, 2010 - Issue 1-4: Phase Transformations, Microstructure Evolution and Deformation
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Original Articles

Kinetics of cubic-to-tetragonal transformation in Ni–V–X alloys

H. Zapolsky GPM, UMR 6634 CNRS, Université de Rouen, Avenue de l'Université, BP 12, 76801 Saint-Etienne-du, Rouvray, FranceCorrespondence[email protected]
,
S. Ferry GPM, UMR 6634 CNRS, Université de Rouen, Avenue de l'Université, BP 12, 76801 Saint-Etienne-du, Rouvray, France
,
X. Sauvage GPM, UMR 6634 CNRS, Université de Rouen, Avenue de l'Université, BP 12, 76801 Saint-Etienne-du, Rouvray, France
,
D. Blavette GPM, UMR 6634 CNRS, Université de Rouen, Avenue de l'Université, BP 12, 76801 Saint-Etienne-du, Rouvray, France
&
L.Q. Chen Department of Material Science and Engineering, Penn State University, PA 16802, USA
Pages 337-355 | Received 17 Nov 2008, Accepted 07 Jul 2009, Published online: 15 Jan 2010
 
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Abstract

Computer simulations based on the Khachaturyan's Onsager diffusion equation have been performed to model microstructure evolution during the cubic-to-tetragonal transformation in Ni-based alloys. A 2D model was employed. The fcc-DO22 ordering has been studied as a model case of this type of transformation. Particular emphasis is placed on the formation mechanism of DO22 monovariant structures. Computer simulations demonstrate that strain-induced interactions between coherent DO22 precipitates lead to the formation of intermediate two-variant chessboard-like structures, which are found to be unstable and coalesce into subsequent single-variant maze structures. It is shown that the stability of the chessboard-like structures is very sensitive to lattice misfits. These simulation results are in good agreement with TEM observations.

Acknowledgements

The authors thank Dr. P. Caron (ONERA, France) for Ni–V single crystal growth. The simulations were carried out in the CRIHAN centre under project 1999006.

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Related Research Data

Revisit of the shape and orientation of precipitates with tetragonal transformation strains that minimise the elastic energy
Source: Informa UK Limited
Alloy microstructures with atomic size effects: A Monte Carlo study under the lattice statics formalism
Source: American Physical Society (APS)

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