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Enthalpy of formation of cubic yttria-stabilized zirconia
T. A. Lee
, A. Navrotsky
, I. Molodetsky
Research output
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Contribution to journal
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Article
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peer-review
71
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Keyphrases
Enthalpy of Formation
100%
Yttria-stabilized Zirconia
100%
Short-range Order
66%
Zirconium Dioxide
50%
Ordered Phase
33%
Mixing Entropy
33%
C-type
33%
Transition Enthalpy
33%
Quadratic Fit
33%
Straight Line Segment
33%
Cubic Fluorite
33%
High Temperature
16%
Oxides
16%
Solution Thermodynamics
16%
Solid Solution
16%
Oxide Melt
16%
Gibbs Free Energy
16%
Interaction Parameter
16%
Solution Behavior
16%
Quadratic Equation
16%
Random Distribution
16%
Excess Entropy
16%
Cation Sublattices
16%
Oxide Anion Vacancy
16%
Thermodynamic Description
16%
Negative Interaction
16%
Anion Sublattice
16%
Regular Solutions
16%
Calorimetric Measurements
16%
Fluorite Phase
16%
Energy Data
16%
Oxide Ion Vacancy
16%
Engineering
Mols
100%
Yttria-Stabilised Zirconia
100%
Range Order
66%
Line Segment
33%
Straight Line
33%
Energetics
16%
Solid Solution
16%
Statistical Distribution
16%
Gibbs Free Energy
16%
Quadratic Equation
16%
Anions and Cation
16%
Interaction Parameter
16%
Thermodynamic Description
16%
Regular Solution
16%
Sublattice
16%
Chemistry
Enthalpy of Formation
100%
Zirconia
100%
Yttrium Oxide
100%
Short-Range Order
44%
Fluorite
33%
Enthalpy
33%
Solid Solution
11%
Cation
11%
Energetics
11%
Gibbs Free Energy
11%
Solution Behavior
11%
Energy Parameter
11%
Biochemistry, Genetics and Molecular Biology
Enthalpy
100%
Solution and Solubility
66%
Short-Range Order
66%
Fluorite
50%
Energy Transfer
16%
Material Science
Yttria Stabilized Zirconia
100%
Short-Range Order
66%
Oxide Compound
50%
Zirconia
50%
Solid Solution
16%
Chemical Engineering
Enthalpy
100%
Yttrium Oxide
100%
Fluorspar
50%
Gibbs Free Energy
16%