Thermodynamics and lattice vibrations of minerals: 4. Application to chain and sheet silicates and orthosilicates

Reviews of Geophysics - Tập 18 Số 4 - Trang 862-886 - 1980
S. W. Kieffer

Tóm tắt

This paper is the fourth in a series relating the lattice vibrational properties to the thermodynamic properties of minerals. The temperature dependence of the harmonic lattice heat capacity is calculated from a model which uses only elastic, crystallographic, and spectroscopic data for the following minerals: calcite, zircon, forsterite, grossular, pyrope, almandine, spessartine, andradite, kyanite, andalusite, sillimanite, clinoenstatite, orthoenstatite, jadeite, diopside, tremolite, talc, and muscovite. The heat capacities of these minerals reflect structural and compositional differences. The ‘excess’ entropy of pyrope—compared with that of grossular—is shown to arise from low‐frequency optic modes of vibration. The entropy differences between kyanite, andalusite, and sillimanite are well reproduced by the model, although the absolute values calculated are systematically about 3% high. Model values of the heat capacity and entropy are compared with experimental values at 298.15, 700, and 1000°K for the 32 minerals included in papers 1–4 of this series. The average deviation of the entropies at 298°K from well‐determined calorimetric values is ±1.5%. A method is given for obtaining greater accuracy in the model thermodynamic functions by fitting one parameter to experimental data when partial calorimetric data (such as the heat capacity at a single temperature in the range 50–100°K) are available; such a method should permit accurate extrapolation of calorimetric data beyond the range of experiment.

Từ khóa


Tài liệu tham khảo

Alexandrov K. S., 1961, Elastic properties of rockforming minerals, II, Layered silicates (in Russian), Izv. Akad. Nauk. SSSR, Ser. Geqfiz., 12, 1799

10.1007/BF00371606

10.1021/ja01317a020

10.1016/B978-0-12-395669-9.50009-6

Anderson O. L. R. C.Liebermann Sound velocities in rocks and mineralsContract Rep. 7885–4‐X Willow Run Lab. Ann Arbor Mich. 1966.

10.1029/RG006i004p00491

10.1016/0031-9201(78)90086-9

10.1121/1.1908076

10.1029/JB082i017p02529

10.1021/j100849a008

Bragg L., 1965, Crystal Structures of Minerals, vol. IV of The Crystalline State

10.1126/science.198.4313.206

10.1103/PhysRevB.8.4795

10.1088/0022-3719/4/2/014

10.1180/mono-4.13

10.1180/mono-4.15

Gibbs G. V., 1965, Refinement of the crystal structure of synthetic pyrope, Amer. Mineral, 50, 2023

10.4294/jpe1952.24.149

Haselton H. T., 1979, Heat capacities (5–350 K) of synthetic pyrope, grossular, and pyrope 60, grossular 40 (abstract), Eos Trans. AGU, 60, 405

10.1016/0016-7037(80)90159-3

10.1080/00018732.1956.tADP0323

Herzberg G., 1945, Infra‐Red and Raman Spectra of Polyatomic Molecules

10.2475/ajs.271.2.97

Holm J. L., 1966, The thermodynamic properties of aluminum silicates, Amer. Mineral., 51, 1608

10.1029/JB075i005p00978

10.1029/JB081i014p02483

Iishi K., 1978, Lattice dynamics of forsterite, Amer. Mineral, 63, 1198

10.1007/BF00307561

10.1016/S0020-1693(00)93207-9

Janaf (Joint Army, Navy, and Air Force Project Principia of the Advanced Research Projects Agency), 1965, Thermochemical tables

Janaf (Joint Army Navy and Air Force Project Principia of the Advanced Research Projects Agency) Thermochemical tables first addendum Therm. Res. Lab. Dow Chem. Co. Midland Mich. 1965b.

Janaf (Joint Army Navy and Air Force Project Principia of the Advanced Research Projects Agency) Thermochemical tables second addendum Therm. Res. Lab. Dow Chem. Co. Midland Mich. 1966.

Janaf (Joint Army Navy and Air Force Project Principia of the Advanced Research Projects Agency) Thermochemical tables third addendum Therm. Res. Lab. Dow Chem. Co. Midland Mich. 1967.

10.1021/ja01855a071

10.1021/ja01243a012

Kelley K. K., 1953, Thermal properties of sodium‐aluminum and potassiumaluminum silicates, U.S. Bur. Mines Rep. Invest., 4955

10.1029/RG017i001p00001

10.1029/RG017i001p00020

10.1029/RG017i001p00035

10.1029/RG018i004p00862

10.1021/ja01577a028

Kiseleva I. A., 1972, Experimental determination of heat content and heat capacity of grossularite, andradite and pyrope (in Russian), Geokhimiya, 11, 1372

Kolesnik Yu. N., 1977, Heat capacity of pyrope within the temperature range 13–300 K: Thermodynamic properties of some natural garnets (in Russian), Geokhimiya, 4, 533

10.1016/B978-0-12-399950-4.50014-8

Krupka K. M., 1979, Heat capacities of synthetic orthoenstatite and natural anthophyllite from 5 to 1000 K (abstract), Eos Trans. AGU, 60, 405

Krupka K. M., 1979, High temperature heat capacities of corundum, periclase, anorthite, CaAl2Si2O8 glass, muscovite, pyrophyllite, KAlSi3O8 glass, grossular, and NaAlSi3O8 glass between 350 and 1000 K, Amer. Mineral., 64, 86

10.1029/JB074i025p05961

Lane D. L., 1979, Reevaluation of Al2O3 solubility in orthopyroxene in the garnet and spinel fields, and the entropy of pyrope, Geol. Soc. Amer. Abstr. Programs, 11, 462

Lazarev A. N., 1972, Vibrational Spectra and Structure of Silicates, translated from Russian

10.1016/B978-0-12-399950-4.50013-6

10.1063/1.1743274

Meagher E. P., 1975, The crystal structure of pyrope and grossularite at elevated temperatures, Amer. Mineral., 60, 218

Moore R. K., 1971, Vibrational spectra of the common silicates, I, The garnets, A mer. Mineral., 56, 54

Newton R. C., 1977, Heat capacity of synthetic Mg3Al2Si3O12 from 350 to 1000 K and the entropy of pyrope, Eos Trans. AGU, 58, 523

Obata M., 1976, The solubility of Al2O3 in orthopyroxenes in spinel and plagioclase peridotites and in spinel pyroxenite, Amer. Mineral., 61, 804

10.1063/1.1671859

10.1016/0022-3697(73)90058-9

Omori K., 1971, Analysis of the infrared absorption spectrum of almandine‐pyrope garnet from Nijosan, Osaka Prefecture, Japan, Amer. Mineral, 56, 841

Omori K., 1971, Analysis of the infrared absorption spectrum of diopside, Amer. Mineral., 56, 1607

Openshaw R. The low temperature heat capacities of analbite low albite microcline and sanidine Ph.D. thesis 312 pp. Princeton Univ. Princeton N. J. 1974.

10.1016/0584-8539(73)80140-0

10.1063/1.1702777

10.1016/0584-8539(71)80235-0

10.2475/ajs.267.3.259

10.1063/1.1782100

10.1021/j100805a003

Robie R. A., 1968, Thermodynamic properties of minerals and related substances at 298.15 K (25.0 C) and one atmosphere (1.013 bars) pressure and higher temperatures, U.S. Geol. Surv. Bull., 1259, 256

10.1130/MEM97-p27

Robie R. A., 1976, The heat capacities of calorimetry conference copper and of muscovite KAl2(AlSi3)O10(OH)2, pyrophyllite Al2Si4O10(OH)2, and illite K3(Al7Mg)(Si14Al2)O40(OH)8 between 16 and 375 K and their standard entropies at 298.15 K, J. Res. U.S. Geol. Surv., 4, 631

Robie R. A., 1978, Thermodynamic properties of minerals and related substances at 298.15 K, and 1 bar (105 pascals) pressure and at higher temperatures, U.S. Geol. Surv. Bull., 1452, 456

Ryzhova T. V., 1966, Elastic properties of rock‐forming minerals, VI, Garnets, Izv. Acad. Sci. USSR Phys. Solid Earth, Engl. Transi., 7, 57

10.1126/science.193.4259.1241

10.1016/0031-9201(74)90125-3

10.1029/JZ069i006p01117

10.1029/JZ069i006p01123

Simmons G., 1971, Single Crystal Elastic Constants and Calculated Aggregate Properties: A Handbook

Simon F., 1926, Untersuchungen über die spezifischen Wärmen bei tiefen Temperaturen, Z. Phys. Chem., 123, 383, 10.1515/zpch-1926-12324

10.1130/MEM97-p75

10.1016/0021-9614(69)90031-7

Tarte P., 1965, Experimental study and interpretation of infrared spectra of silicates and germanates, Mem. Acad. Roy. Sci. Outre Mer Cl Sci. Tech. Mem. 8 Brussels, 35

Touloukian Y. S., 1977, Thermophysical Properties of Matter, TPRC Data Ser., Thermal Expansion, Nonmetallic Solids

10.1016/0016-7037(76)90189-7

10.1007/BF00308117

Vedder W., 1964, Correlations between infrared spectrum and composition of mica, Amer. Mineral., 49, 736

Velde B., 1978, Infrared spectra of synthetic micas in the series muscoviteMgAl celadonite, Amer. Mineral., 63, 343

10.1029/JZ065i002p00757

10.1029/JB079i017p02607

10.1016/0021-9614(79)90083-1

White W. B., 1974, The Infrared Spectra of Minerals, Monogr., 227, 10.1180/mono-4.12

10.1016/B978-0-12-399950-4.50018-5

Winter J. K., 1977, A high‐temperature study of the thermal expansion and the anisotropy of the sodium atom in low albite, Amer. Mineral., 62, 921

10.1190/1.1439242

Wyckoff R. W. G., 1968, Crystal Structures

Zen E., 1972, Gibbs free energy, enthalpy, and entropy of the rock‐forming minerals: Calculations, discrepancies and implications, Amer. Mineral, 57, 524

10.1017/CBO9781139644075

Thông tin
Thông tin xuất bản

Reviews of Geophysics

Tập 18 Số 4

862-886

Thông tin tác giả