Thermodynamics of High Temperature Materials Systems

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6. Marushkin et al. (2000) Knudsen cell, Mass spectrometry Partial pressures, CeO 2 , Ce 2 O 3 CeO 1.99, Ce 2 O 2.96 1900-2150 1850-2050 - 7. Kuznetzov& Rezukhina (1960) Calorimetry Heat capacity, CeO 2 608-1172 - 8. Westrum & Beale Jr. (1961) Adiabatic Calorimetry Heat capacity, CeO 2 5-300 + 9. Justice & Westrum (1969) Cryogenic Calorimetry Heat capacity Ce 2 O 3.02 5-350 + 10. Basily & El- Sharkawy (1979) Plane temperature wave method Heat capacity Ce 2 O 3 400-1000 + 11. Ricken et al. (1984) Calorimetry Specific heat, ∆H trans. CeO 1.72 – CeO 2 320-1200 - 12. Kuznetzov, et al. (1960) Bomb calorimetry ∆H for Ce 2 O 3 Ce 2 O 3.00 298 +
13. Baker & Holley (1968) Oxygen Bomb Calorimetry Heat <strong>of</strong> combustion Ce 2 O 3 Ce 2 O 3 298.15 - 14. Baker, Huber, Holley & Krikorian (1971) Bomb calorimetry Heat <strong>of</strong> formation CeO 2 , CeC 1.5 , CeC 2 CeO 2 298.15 - 15. Campserveux & Gerdanian (1974) Micro Calorimetry Partial molal enthalpy ∆H soln. (O 2 ) CeO 1.5 – CeO 2 1353 + 16. Panlener, Blementhal & Garnier(1975) Thermogravimetry ∆W/W CeO 2-x 1023-1773 + 17 Riess, Koerner & Noelting Dilatometry Thermal expansion coefficient CeO 1.79 – CeO 2 320-1200 + (1988)
Page 1 and 2: Freiberg University of Mining and T
Page 3 and 4: Thermodynamics of High Temperature
Page 5 and 6: Computational Thermodynamics Theory
Page 7 and 8: CALPHAD (CALculation of PHAse Diagr
Page 9 and 10: Calculated Ce-O System in Solid Sta
Page 11 and 12: “Compound Energy” Formalisms -
Page 13 and 14: Modeling of solution phases; sublat
Page 15 and 16: Compound Energy Formalisms - Gibbs
Page 17: No. Paper Experimental Technique Me
Page 21 and 22: Heat capacities of Ce 2 O 3 and CeO
Page 23 and 24: Chemical potentials of oxygen for c
Page 25 and 26: Chemical potentials of oxygen for c
Page 27 and 28: Chemical potentials of oxygen in th
Page 29 and 30: Thermodynamics of High Temperature
Page 31 and 32: Process for Precursor-derived Si-(B
Page 33: Si-N binary subsystem Gas Si(l) + G
Page 37 and 38: Isothermal Section of the Ternary S
Page 39 and 40: Calculated Phase Fraction Diagrams
Page 41 and 42: Calculated Phase Fraction Diagram o
Page 43 and 44: Thermogravimetrical (TG) analysis o
Page 45 and 46: B SiB n SiB 6 B 4+ δ C BN SiB 3 B
Page 47 and 48: B SiB n B 4+δ C SiB 6 SiB 3 BN N S
Page 49 and 50: Calculated Potential Phase Diagram
Page 51 and 52: B N C Si
Page 53 and 54: Isopleth from B 0.1 C 0.65 Si 0.25
Page 55 and 56: Si-B-C-N phase diagram at 1673 K wi
Page 57 and 58: Si-B-C-N concentration tetrahedron
Page 59 and 60: Isothermal Sections at 10 mol-% B i
Page 61: a - Si-B-C-N B SiB n stable a - C y

Thermodynamics of High Temperature Materials Systems

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