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Kinetics of the Nitridation of Dysprosium During Mechanochemical Processing
Journal of Alloys and Compounds
  • Gordon A. Alanko, Boise State University
  • Daniel D. Osterberg, Boise State University
  • Brian J. Jaques, Boise State University
  • Michael F. Hurley, Boise State University
  • Darryl P. Butt, Boise State University
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Dysprosium nitride was synthesized by the reactive milling of the rare earth metal under 400 kPa nitrogen gas in a planetary ball mill. The nitrogen consumption rate was calculated from in situ temperature and pressure measurements to find the reaction extent as a function of milling time at milling speeds from 350-650 rpm. The results are analyzed in terms of a fundamental milling dynamics model in which the input milling energy is the primary driving force for reaction and the rate limiting step of the nitridation kinetics is the formation of chemically active surfaces. The model differs from traditional gas-solid reactions which are often limited by diffusion of a species through a surface layer or by dissociation of the gas molecule. These results give fresh insight into reactive gas-solid milling kinetics.

Citation Information
Alanko, Gordon A.; Osterberg, Daniel D.; Jaques, Brian J.; Hurley, Michael F.; and Butt, Darryl P.. (2014). "Kinetics of the Nitridation of Dysprosium During Mechanochemical Processing". Journal of Alloys and Compounds, 620, 413-420.