Interlayer growth kinetics of a binary solid-solution based on the thermodynamic extremal principle: Application to the formation of spinel at periclase-corundum contacts

Rainer Abart; Jiri Svoboda; Petr Jeřabek; Erwin Povoden-Karadeniz; Gerlinde Habler

doi:10.2475/04.2016.01

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Interlayer growth kinetics of a binary solid-solution based on the thermodynamic extremal principle: Application to the formation of spinel at periclase-corundum contacts

Rainer Abart, Jiri Svoboda, Petr Jeřabek, Erwin Povoden-Karadeniz and Gerlinde Habler

American Journal of Science April 2016, 316 (4) 309-328; DOI: https://doi.org/10.2475/04.2016.01

Rainer Abart

* University of Vienna, Department of Lithospheric Research, Althanstrasse 14, A-1090 Vienna, Austria

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For correspondence: rainer.abart@univie.ac.at

Jiri Svoboda

** Institute of Physics of Materials, Academy of Sciences of the Czech Republic, Zizkova 22, CZ-61662 Brno, Czech Republic

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Petr Jeřabek

*** Institute of Petrology and Structural Geology, Faculty of Science, Charles University in Prague, Albertov 6, CZ-12843 Prague, Czech Republic

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Erwin Povoden-Karadeniz

§ Institute of Materials Science and Technology, Christian Doppler Laboratory for Early Precipitation, Vienna University of Technology

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Gerlinde Habler

* University of Vienna, Department of Lithospheric Research, Althanstrasse 14, A-1090 Vienna, Austria

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American Journal of Science

Vol. 316, Issue 4

1 Apr 2016

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Interlayer growth kinetics of a binary solid-solution based on the thermodynamic extremal principle: Application to the formation of spinel at periclase-corundum contacts

Rainer Abart, Jiri Svoboda, Petr Jeřabek, Erwin Povoden-Karadeniz, Gerlinde Habler

American Journal of Science Apr 2016, 316 (4) 309-328; DOI: 10.2475/04.2016.01

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Interlayer growth kinetics of a binary solid-solution based on the thermodynamic extremal principle: Application to the formation of spinel at periclase-corundum contacts

Rainer Abart, Jiri Svoboda, Petr Jeřabek, Erwin Povoden-Karadeniz, Gerlinde Habler

American Journal of Science Apr 2016, 316 (4) 309-328; DOI: 10.2475/04.2016.01

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Keywords

reactive dffusion
interface migration
thermodynamic modeling
spinel

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