Ab initio phonon dispersion curves used to check experimentally determined elastic constants of the MAX phase Ti3SiC2
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Date
2011-07-04
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Trans. Tech Publication Inc.
Abstract
The ternary carbide Ti3SiC2 is the archetype of MAX phases. To date, MAX phases have proven difficult to synthesize as sufficiently large single crystals from which single crystal elastic constants might be obtained. Therefore, the elastic properties not only of Ti3SiC2 but other MAX phases are extensively studied by ab initio methods. Recently single crystal elastic constants were experimentally determined for the first time using neutron diffraction. The experiment revealed extreme shear stiffness which is not only quite rare in hexagonal materials but also strongly contradicts the predictions of all published MAX phase elastic constants from ab initio calculations. In the present paper we would like to show that such shear stiffness can possibly be supported by ab initio calculations and the calculated phonon dispersion along high symmetry directions.© 2011, Trans Tech Publications
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Keywords
Photons, Phase studies, Elasticity, Crystals, Neutron diffraction, Dispersions
Citation
Kirstein, O., Zhang, J. F., Kisi, E. H., Riley, D. F. (2011). Ab initio phonon dispersion curves used to check experimentally determined elastic constants of the MAX phase Ti3SiC2. Paper presented to the International Conference on Structural Integrity and Failure (SIF2010), 4th - 7th July 2010. University of Auckland, Auckland, New Zealand. In G. Ferguson, A. Thambyah, M. A. Hodgson and K. Wade (Eds), Structural Integrity and Failure, Advanced Materials Research, 275, 135-138. doi:10.4028/www.scientific.net/amr.275.135