Thermodynamics of copper‐manganese and copper‐iron spinel solid solutions |
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| Authors: | Sulata K. Sahu Alexandra Navrotsky |
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| Affiliation: | 1. Peter A. Rock Thermochemistry Laboratory and NEAT ORU, University of California Davis, Davis, California;2. Department of Materials Science and Engineering, Massachusetts Institute of Technology, Cambridge, Massachusetts |
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| Abstract: | High‐temperature oxide melt solution calorimetry has been performed to investigate the energetics of spinel solid solutions in the Mn3O4‐CuMn2O4 and Fe3O4‐CuFe2O4 systems. The spinel solid solutions were synthesized by a ceramic route and calcined at appropriate temperatures to obtain single phase samples. The drop solution enthalpies of the solid solutions in the Mn3O4‐CuMn2O4 system are the same within experimental error as the enthalpies of drop solution of mechanical mixtures of the end‐members, indicating a zero heat of mixing, i.e., ideal mixing in terms of enthalpy. In Fe3O4‐CuFe2O4, the drop solution enthalpy of the solid solutions shows a positive deviation from those of the mechanical mixture of the end‐members, suggesting negative mixing enthalpy. The formation enthalpies of the spinel solid solutions from their constituent oxides plus oxygen and from the elements were also determined. |
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| Keywords: | calorimetry Fe3O4‐CuFe2O4 Mn3O4‐CuMn2O4 spinel solid solutions thermodynamics of formation and mixing |
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