Heat capacity of minerals in the system Na2O-K2O-CaO-MgO-FeO-Fe2O3-Al2O3-SiO2-TiO2-H2O-CO2: representation, estimation, and high temperature extrapolation

Contributions to Mineralogy and Petrology

Volumn 89, Issue 2-3, 1985, Pages 168-183

  Berman, Robert G ^a   Brown, Thomas H ^a  

^a UNIVERSITY OF BRITISH COLUMBIA   (Canada)

Author keywords

[No Author keywords available]

Indexed keywords

EID: 0022007758     PISSN: 00107999     EISSN: 14320967     Source Type: Journal    
DOI: 10.1007/BF00379451     Document Type: Article

References (131)

1. The heat capacities of magnesium, zinc, lead, manganese and iron carbonates at low temperatures
2. The heat capacities of quartz, cristobalite and tridymite at low temperatures
3. On the heat capacity of crystalline magnesium oxide
4. A revised equation for representation and high temperature extrapolation of the heat capacity of minerals
5. A thermodynamic model for multicomponent melts, with application to the system CaO-Al2O3-SiO2
6. Einige allgemeine Sätze über Wärmegleichgewicht
7. High-temperature heat contents of calcium and magnesium ferrites
8. High temperature heat contents of aluminates of calcium and magnesium
9. High temperature heat contents of some titanates of aluminum, iron and zinc
10. High-temperature heat contents of ferrous oxide, magnetite and ferric oxide
11. High temperature heat contents of calcium orthosilicate
12. Zur Theorie der spezifischen Wärmen
13. Measurement of the relative enthalpy of pure α-Al2O3 (NBS heat capacity and enthalpy standard reference material no. 720) from 273 to 1,173 K
14. Die Plancksche Theorie der Strahlung und die Theorie der spezifischen Wärme
15. Die spezifischen Wärmen von CaO, Al2O3, CaO·Al2O3, 3CaO·Al2O3, 2CaO·SiO2, 3CaO·SiO2, 2CaO·Al2O3·SiO2 von 20 bis 1,500 C
16. Inverted hightemperature quartz. Unit cell parameters and properties of the alpha-beta inversion
17. The Gibbs free energy of mixing of natural silicate liquids: an expanded regular solution approximation for the calculation of magmatic intensive variables
18. The entropy of water from the third law of thermodynamics. The dissociation pressure and calorimetric heat of the reaction Mg(OH)2 = MgO + H2O. The heat capacities of Mg(OH)2 and MgO from 20 to 300 K
19. Thermal properties of alkaline-earth-oxides
20. Heat capacity and thermodynamic properties of α-Fe2O3 in the region 300–1,050 K
21. Heat capacity and thermodynamic properties of synthetic magnetite (Fe3O4) from 300 to 1,050 K. Ferrimagnetic transition and zero-point entropy
22. α-ferric oxide: low temperature heat capacity and thermodynamic functions
23. Simultaneous evaluation and correlation of thermodynamic data
24. Thermodynamic tabulations for selected phases in the system CaO-Al2O3-SiO2-H2O at 101.325 kPa (1atm) between 273.15 and 1,800 K
25. Low-temperature heat capacities of CaAl2SiO6 glass and pyroxene and thermal expansion of CaAl2SiO6 pyroxene
26. Calorimetric investigation of the excess entropy of mixing in analbite-sanidine solid solutions: lack of evidence for Na, K short-range order and implications for two-feldspar thermometry
27. Low-temperature heat capacities of synthetic pyrope, grossular, and pyrope60grossular40
28. The chemical thermodynamic properties of calcium hydroxide
29. Heat capacities of the alkali feldspars between 350 and 1,000 K from differential scanning calorimetry, the thermodynamic functions of the alkali feldspars from 298.15 to 1,400 K, and the reaction quartz + jadeite = analbite
30. Heat capacity and thermodynamic functions for gehlenite and staurolite: with comments on the Schottky anomaly in the heat capacity of staurolite
31. Thermodynamic properties of zeolites: low-temperature heat capacities and thermodynamic functions for phillipsite and clinoptilolite. Estimates of the thermochemical properties of zeolitic water at low temperature
32. Heat capacities of gibbsite, Al(OH)3, between 13 and 480 K and magnesite, MgCO3, between 13 and 380 K and their standard entropies at 298.15 K and the heat capacities of calorimetry conference benzoic acid between 12 and 316 K
33. Revised values for the Gibbs free energy of formation of [Al(OH)4− aq], diaspore, boehmite and bayerite at 298.15 K and 1 bar, the thermodynamic properties of kaolinite to 800 K and 1 bar, and the heats of solution of several gibbsite samples
34. The heat capacities of osumilite from 298.15 to 1,000 K, the thermodynamic properties of two natural chlorites to 500 K, and the thermodynamic properties of petalite to 1,800 K
35. Thermodynamics and phase equilibria of clinochlore, (Mg5Al)(Si3Al)O10(OH)8
36. Experimental determination of the reaction paragonite = jadite + kyanite + H2O, and internally consistant thermodynamic data for part of the system Na2O-Al2O3-SiO2-H2O, with applications to eclogites and blueschists
37. Thermodynamic analysis of simple mineral systems
38. Grossularite, its solidus and liguidus relations in the CaO-Al2O-SiO2-H2O system up to 10 kbar
39. The high temperature heat capacity of natural calcite (CaCO3)
40. Thermodynamic studies of zeolites: analcime and dehydrated analcime
41. Thermodynamic studies of zeolites: natrolite, mesolite and scolecite
42. The specific heats at low temperatures of crystalline ortho-, meta-, and disilicates of sodium
43. Specific heats at low temperatures of magnesium orthosilicate and magnesium metasilicate
44. Heat capacities at low temperatures and entropies at 298.16 K of calcium and magnesium ferrites
45. Heat capacities at low temperatures and entropies at 298.16 K of crystalline calcium and magnesium aluminates
46. Low-temperature heat capacties and entropies at 298.16 K of some titanates of aluminum, calcium, lithium and zinc
47. Low temperature heat capacities and entropies at 298.15 K of some crystalline silicates containing calcium
48. Low temperature heat capacity, entropy at 298.16 K, and high temperature heat content of sphene (CaTiSiO5)
49. Thermodynamic parameters of minerals of the epidote group
50. Experimental determination of heat content and heat capacity in grossular, andradite, and pyrope
51. The heat capacities of inorganic substances at high temperatures. Part II. The heat capacity of calcium hydroxide
52. The heat capacities of inorganic substances at high temperatures. Part IV: The heat capacity of synthetic aragonite (calcium carbonate)
53. Thermodynamics of pyrope-grossular solid solutions and the specific heat of grossular at 13–300 K
54. High-temperature heat capacities of corundum, periclase, anorthite, CaAl2Si2O8 glass, muscovite, pyrophyllite, KAlSi3O8 glass, grossular, and NaAlSi3O8 glass
55. Experimental heat contents of SrO, BaO, CaO, BaCO3 and SrCO3 at high temperatures. Dissociation pressures of BaCO3 and SrCO3
56. Al2O3 solubility in orthopyroxene in the system MgO-Al2O3-SiO2: A reevaluation, and mantle geotherm
57. An equation for the representation of high temperature heat content data
58. The measurement of accurate heat capacities by differential scanning calorimetry. Comparison of DSC results on pyrite (100 to 800 K) with literature values from precision adiabatic calorimetry
59. High-temperature heat contents of sodium metasilicate and sodium disilicate
60. High-temperature heat contents of Na2TiO3, Na2Ti2O5 and Na2Ti3O7
61. High-temperature heat contents of TiO, Ti2O3, Ti3O5, and TiO2
62. High temperature heat contents of the metatitanites of calcium, iron, and magnesium
63. Heat capacity of synthetic Mg3Al2Si3O12 from 350 to 1,000 K and the entropy of pyrope
64. Measurement of specific heat functions by differential scanning calorimetry
65. The heat capacity at low temperatures and entropies at 298.15 K of low albite, analbite, microcline, and sanidine
66. High temperature heat contents of magnesium orthosilicate and ferrous orthosilicate
67. New thermodynamic data for diaspore and their application to the system Al2O3-SiO2-H2O
68. The thermodynamic properties and phase relations of some minerals in the system CaO-Al2O3-SiO2-H2O
69. Recherches sur quelques points importants de la theorie de la chaleur
70. Modèles de calcul des capacités calorifigues des verres et des liguides silicatés
71. Thermodynamic properties of quartz, cristobalite and amorphous SiO2: drop calorimetry measurements between 1,000 and 1,800 K and a review from 0 to 2,000 K
72. Heat capacity of sodium silicate liquids
73. Heat capacity and entropy of fayalite (Fe2SiO4) between 5.1 and 383 K: comparison of calorimetric and equilibrium values for the QFM buffer reaction
74. Heat capacities and entropies of rhodochrosite (MnCO3) and siderite (FeCO3) between 5 and 600 K
75. Entropies of kyanite, andalusite, and sillimanite: additional constraints on the pressure and temperature of the Al2SiO5 triple point
76. Heat capacities and entropies of Mg2SiO4, Mn2SiO4, and Co2SiO4 between 5 and 380 K
77. The heat capacities of calorimetry conference copper and of muscovite KAl2(Al-Si3)O10(OH)2, pyrophyllite Al2Si4O10(OH)2, and illite K3(Al7Mg)(Si14Al2)O40(OH)8 between 15 and 375 K and their standard entropies at 298.15 K
78. Low-temperature heat capacities and entropies of feldspar glasses and of anorthite
79. Heat capacity from 12 to 305 K and entropy of talc and tremolite
80. Heat capacity, relative enthalpy, and calorimetric entropy of silicate minerals: an empirical method of prediction
81. The heat capacity and phase equilibria of monticellite
82. Heat capacities at low temperatures of the metatitanates of iron, calcium and magnesium
83. Heat capacities at low temperatures of titanium dioxide (rutile and anatase)
84. Low-temperature heat capacities and high-temperature heat contents of Al2O3·3H2O and Al2O3·H2O
85. A modified calorimeter for high temperatures. The heat content of silica, wollastonite and thorium dioxide above 25°
86. The heat capacity and entropy of calcite and aragonite, and their interpretation
87. Heat capacities and entropies of silicate liquids and glasses
88. The high temperature liquid and glass heat contents and the heats of fusion of diopside, albite, sanidine and nepheline
89. Heat capacity from 11 to 300 K, entropy, and heat of formation of dolomite
90. Temperature coefficients of elastic constants of single crystal MgO between 80 and 1,300 K
91. Heat capacities and inversions in tridymite, cristobalite, and tridymite-cristobalite mixed phases
92. Low-temperature heat capacities and entropies at 298.16 K of crystalline calcium orthosilicate, zinc orthosilicate and tricalcium silicate
93. Low temperature heat capacities and entropies at 298.16 K of magnesium orthotitanate and magnesium dititanate
94. Low temperature heat capacities and entropies at 298.16 K of ferrous oxide, manganese oxide and vanadium monoxide
95. Heat capacities at low temperatures and entropies at 298.16 K of titanomagnetite and ferric titanate
96. Themodynamic properties of magnesium oxide and beryllium oxide from 298 to 1,200 K
97. Zur Thermochemie der Metasilikate des Calciums und Magnesiums und des Diopsids
98. The configurational entropies of Ca2Mg-Si2O7-Ca2SiAl2O7 melilites and related minerals
99. Thermophyical properties of the garnet, grossular: Ca3Al2Si3O12
100. Magnetite (Fe3O4). Heat capacity and thermodynamic properties from 5 to 350 K, low-temperature transition
101. Silicate specific heats
102. Thermal expansion and high temperature crystal chemistry of the Al2SiO5 polymorphs