Empirical Modeling of Cation Ordering in Perovskite Ceramics

Evan Smith, Kevin Tolman, Rick Ubic

Research output: Contribution to conferencePresentation

Abstract

<p> The electroceramics industry largely relies on various time-consuming and expensive trial-and-error experiments to address new questions which often could otherwise be interpolated from published data. Towards this end, predictive models, which can be derived from empirical evidence, can greatly aid the direction of future development in a meaningful and cost-effective way. This work focuses on deriving predictive models based on empirical data collected for ceramic compounds with the perovskite crystal structure. Specifically, models were made for layered type ordering in the [(Na <em> <sub> y </sub> </em> Li <sub> 1- <em> y </em> </sub> ) <sub> (1-3 <em> x </em> )/2 </sub> La <sub> (1+ <em> x </em> )/2 </sub> ]TiO <sub> 3 </sub> system and rocksalt ordering in Ba(Mg <sub> &frac13; </sub> Ta <sub> &frac23; </sub> )O <sub> 3 </sub> .</p>
Original languageAmerican English
StatePublished - 12 Apr 2018

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