Thermodynamic modeling of the ZrO2–YO1.5 system
暂无分享,去创建一个
[1] I. Molodetsky,et al. Enthalpy of formation of cubic yttria-stabilized zirconia , 2003 .
[2] C. Wolverton,et al. Nature and strength of defect interactions in cubic stabilized zirconia , 2002 .
[3] R. Arróyave,et al. Thermodynamic modeling of the ZrO system , 2002 .
[4] L. Gauckler,et al. Thermodynamic assessment of the lanthanum-oxygen system , 2001 .
[5] M. Finnis,et al. Free energy and molecular dynamics calculations for the cubic- tetragonal phase transition in zirconia , 2001, cond-mat/0102526.
[6] H. Yamamura,et al. Excess Heat Capacity in Yttria Stabilized Zirconia , 1999 .
[7] H. Yamamura,et al. Heat capacity and thermodynamic functions of zirconia and yttria-stabilized zirconia , 1999 .
[8] L. Dubrovinsky,et al. High-temperature powder x-ray diffraction of yttria to melting point , 1999 .
[9] P. Chevalier,et al. Thermodynamic modelling of the O-U-Zr system , 1998 .
[10] H. Seifert,et al. Thermodynamic properties of Y2O3 phases and the yttrium–oxygen phase diagram , 1998 .
[11] Y. Suzuki. Phase transition temperature of ZrO2-Y2O3 solid solutions (2.4-6 mol% Y2O3) , 1997 .
[12] Y. Suzuki. Phase transition temperature of fluorite-type ZrO2Y2O3 solid solutions containing 8–44 mol% Y2O3 , 1995 .
[13] E. Subbarao,et al. Acoustic emission study of phase relations in low-Y2O3 portion of ZrO2-Y2O3 system , 1994, Journal of Materials Science.
[14] A. Dinsdale. SGTE data for pure elements , 1991 .
[15] A. Palenzona,et al. The Y-Zr (Yttrium-Zirconium) system , 1991 .
[16] Yong Du,et al. Thermodynamic Assessment of the ZrO2─YO1.5 System , 1991 .
[17] Bo Sundman,et al. Modification of the two-sublattice model for liquids , 1991 .
[18] Chen,et al. Intrinsic electron and hole defects in stabilized zirconia single crystals. , 1990, Physical review. B, Condensed matter.
[19] S. Chan,et al. Heat Capacity of Monoclinic Zirconia between 2.75 and 350 K , 1990 .
[20] Y. Suzuki,et al. Electrical conduction behavior and phase transition of Y2O3-stabilized ZrO2 , 1989 .
[21] A. Heuer,et al. Phase Equilibration in ZrO2‐Y2O3 Alloys by Liquid‐Film Migration , 1986 .
[22] F. Lange. Transformation‐Toughened ZrO2: Correlations between Grain Size Control and Composition in the System ZrO2‐Y2O3 , 1986 .
[23] J. Hlaváč,et al. INORGANIC CHEMISTRY DIVISION COMMISSION ON HIGH TEMPERATURES AND REFRACTORY MATERIALS * MELTING TEMPERATURES OF REFRACTORY OXIDES : PART I , 2006 .
[24] E. Rauh,et al. The ZrO2‐x (cubic)‐ZrO2‐x (cubic+tetragonal) Phase Boundary , 1980 .
[25] T. Gupta,et al. Effect of stress-induced phase transformation on the properties of polycrystalline zirconia containing metastable tetragonal phase , 1978 .
[26] R. J. Ackermann,et al. The Lower Phase Boundary of ZrO2−x , 1978 .
[27] E. Rauh,et al. High‐Temperature Phase Diagram for the System Zr. , 1977 .
[28] V. Stubican,et al. Fluorite related ordered compounds in the ZrO2CaO and ZrO2Y2O3 systems , 1977 .
[29] A. Heuer,et al. Mechanisms of Toughening Partially Stabilized Zirconia (PSZ) , 1977 .
[30] H. G. Scott,et al. Phase relationships in the yttria-rich part of the yttria-zirconia system , 1977 .
[31] H. G. Scott,et al. Phase relationships in the zirconia-yttria system , 1975 .
[32] J. C. Warner,et al. Solid solubilities of oxygen, carbon and nitrogen in yttrium , 1974 .
[33] T. Noguchi,et al. The Liquidus Curve of the ZrO 2 -Y 2 O 3 System as Measured by a Solar Furnace , 1970 .
[34] R. Ruh,et al. Nonstoichiometry of ZrO2 and Its Relation to Tetragonal‐Cubic Inversion in ZrO2 , 1967 .
[35] V. Stubican,et al. Mechanism of Decomposition of the Cubic Solid Solutions in the System ZrO2—MgO , 1965 .
[36] C. E. Holley,et al. The Heats of Formation of Zirconium Diboride and Dioxide1 , 1964 .
[37] D. Strickler,et al. Ionic Conductivity of Cubic Solid Solutions in the System CaO—Y2O3—ZrO2 , 1964 .
[38] C. F. Cline,et al. Verification of Existence of Cubic Zirconia at High Temperature , 1962 .
[39] G. Humphrey. HEATS OF FORMATION OF TANTALUM, NIOBIUM AND ZIRCONIUM OXIDES, AND TANTALUM CARBIDE , 1954 .
[40] F. H. Brown,et al. The Zirconia‐Yttria System , 1951 .
[41] J. S. Arthur. The Specific Heats of MgO, TiO2, and ZrO2 at High Temperatures , 1950 .
[42] E. G. King,et al. High-Temperature Heat Contents of Some Zirconium-containing Substances , 1950 .
[43] K. Kelley. Specific Heat of Zirconium Dioxide at Low Temperatures , 1944 .
[44] O. Ruff,et al. Beiträge zur Keramik hochfeuerfester Stoffe. l. Die Formen des Zirkondioxyds , 1929 .
[45] I. Molodetsky,et al. The Energetics of Cubic Zirconia from Solution Calorimetry of Yttria- and Calcia-Stabilized Zirconia , 1998 .
[46] V. Lysenko. Thermodynamic calculation of the yttrium-oxygen phase diagram , 1996 .
[47] Z. Dobrokhotova,et al. THERMODYNAMIC FUNCTIONS OF ZIRCONIA IN FLUORITE SOLID-SOLUTIONS OF THE ZRO2-Y2O3 SYSTEM , 1994 .
[48] A. Alikhanyan,et al. The quasibinary systems HfO2-ZrO2, ZrO2-Y2O3, and Hfo2-Y2O3 , 1991 .
[49] G. F. Voronin,et al. Solution of ill-posed problems in thermodynamics of phase equilibria. The Zro2 — Y2o3 system , 1988 .
[50] D. Hasselman,et al. Thermal diffusivity and conductivity of dense polycrystalline ZrO2 ceramics: a survey , 1987 .
[51] N. Yoshikawa,et al. Transformation Behavior of Y 2 O 3 -PSZ Investigated by Thermal Dilatometry , 1986 .
[52] H. Eda,et al. On the Cubic/Tetragonal Phase Equilibrium of the ZrO 2 -Y 2 O 3 System , 1986 .
[53] P. Durán,et al. Subsolidus Phase Equilibria and Ordering in the System ZrO2‐Y2O3 , 1983 .
[54] R. Hink,et al. Phase Equilibria and Ordering in the System ZrO2‐Y2O3 , 1978 .
[55] K. SrivastavaK,et al. ZrO2‐YO1.5系の修正相平衡図 , 1974 .