Reconstruction of –Iron 〈100〉 Symmetric Tilt Grain Boundaries Σ17(410) and Σ13(510)

Eva Vitkovská; Peter Ballo

Open Access

Reconstruction of α–Iron 〈100〉 Symmetric Tilt Grain Boundaries Σ17(410) and Σ13(510)

Eva Vitkovská

and

Peter Ballo

| Dec 30, 2016

Journal of Electrical Engineering

Volume 67 (2016): Issue 6 (December 2016)

About this article

Cite

Page range: 427 - 432

Received: Aug 03, 2016

DOI: https://doi.org/10.1515/jee-2016-0062

Keywords
iron, grain boundary, relaxation, reconstruction, structural optimization, atomic migration

© 2016 Faculty of Electrical Engineering and Information Technology, Slovak University of Technology

This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

[1] MALERBA, L.—CARO, A.—WALLENIUS, J. : Multiscale Modelling of Radiation Damage and Phase Transformations: The Challenge of FeCr Alloys, J. Nucl. Mater. 382 (2008), 112–125.10.1016/j.jnucmat.2008.08.014Search in Google Scholar

[2] SUGINO, Y.—UKAI, S.—LENG, B.—OONO, N.—HAYASHI, S.—KAITO, T.—OHTSUKA, S. : Grain Boundary Related Deformation in ODS Ferritic Steel During Creep Test, Mater. Trans. 53 No. 10 (2012), 1753–1757.10.2320/matertrans.M2012143Search in Google Scholar

[3] STECKMEYER, A.—RODRIGO, V. H.—GENTZBITTEL, J. M.—RABEAU, V.—FOURNIER, B. : Tensile Anisotropy and Creep Properties of a Fe–14CrWTi ODS Ferritic Steel, J. Nucl. Mater. 426 (2012), 182–188.10.1016/j.jnucmat.2012.03.016Search in Google Scholar

[4] MISHIN, Y.—ASTA, M.—LI, J. : Atomistic Modelling of Interfaces and their Impact on Microstructure and Properties, Acta Mater. 58 No. 148 (2010), 1117–1151.10.1016/j.actamat.2009.10.049Search in Google Scholar

[5] RACE, C. P.—HADIAN, R.—von PEZOLD, J.—GRABOWSKI, B.—NEUGEBAUER, J. : Mechanisms and Kinetics of the Migration of Grain Boundaries Containing Extended Defects, Phys. Rev. B 92 (2015), 174115.10.1103/PhysRevB.92.174115Search in Google Scholar

[6] COMBE, N.—MOMPIOU, F.—LEGROS, M. : Disconnections Kinks and Competing Modes in Shear-Coupled Grain Boundary Migration, Phys. Rev. B 93 (2016), 024109.10.1103/PhysRevB.93.024109Search in Google Scholar

[7] IBACH, H. : Physics of Surfaces and Interfaces, Springer-Verlag, Berlin, Heidelberg, 2006.Search in Google Scholar

[8] TERENTYEV, D.—HE, X. : Properties of Grain Boundaries in bcc Iron and Iron-Based Alloys, SCK•CEN, Mol, Belgium, no. BLG-1072, 2010.Search in Google Scholar

[9] TSCHOPP, M. A.—SOLANKI, K. N.—GAO, F.—SUN, X.—KHALEEL, M. A.—HORSTEMEYER, M. F. : Probing Grain Boundary Sink Strength at the Nanoscale: Energetics and Length Scales of Vacancy and Interstitial Absorption by Grain Boundaries in α-Fe, Phys. Rev. B 85 (2012), 064108.10.1103/PhysRevB.85.064108Search in Google Scholar

[10] DAW, M. S.—BASKES, M. I. : Embedded-Atom Method: Derivation and Application to Impurities, Surfaces, and other Defects in Metals, Phys. Rev. B 29 No. 12 (1984), 6443–6453.10.1103/PhysRevB.29.6443Search in Google Scholar

[11] MENDELEV, M. I.—HAN, S.—SROLOVITZ, D. J.—ACKLAND, G. J.—SUN, D.—ASTA, M. : Development of New Interatomic Potentials Appropriate for Crystalline and Liquid Iron, Philos. Mag. 83 (2003), 3977–3994.10.1080/14786430310001613264Search in Google Scholar

[12] WU, M.—GU, J.—JIN, Z. : Migration Energy Barriers of Symmetric Tilt Grain Boundaries in Body-Centered Cubic Metal Fe, Scripta Mater. 107 (2015), 75–78.10.1016/j.scriptamat.2015.05.024Search in Google Scholar

eISSN:: 1339-309X
Language:: English

Publication timeframe:: 6 times per year
Journal Subjects:: Engineering, Introductions and Overviews, other

Journal RSS Feed