Научно-просветительский центр “Байкал“
БиблиотекаПубликацияНазвание: Thermodynamic analysis of pyroxene-olivine-quartz equilibria in the system CaO-MgO-FeO-SiO2 Автор(ы): Paula M. Davidson, Donald H. Lindsley Аннотация: An internally consistent set of thermodynamic models for pyroxenes, olivine, and quartz in the CMFS system has been calibrated simultaneously with orthopyroxene cation distributions, orthopyroxene solution enthalpies, and phase equilibria for coexisting pyroxenes and coexisting pyroxene + olivine + quartz. New experiments on pyroxene + olivine + quartz equilibria constrain the models. Preferred values of model parameters are used to generate component activities that are consistent with our choice of apparent standard-state energies. These values are modified from the compilation of Helgeson et al. (1978) to fit newer experimental data and to incorporate coefficients of compressibility and thermal expansion. Calculated geothermometers include those based on equilibria involving one, two, or three pyroxenes. Isothermal, isobaric augite solvus limbs are displaced to higher Ca contents relative to Lindsley's (1983) graphs. Calculated geobarometers include those based on assemblages of olivine + quartz + one, two, or three pyroxenes. The calculated temperature for coexisting olivine + quartz + orthopyroxene + augite + pigeonite is 818 & plusmn; 20 °C, in agreement with previous experiments; the pressure for this assemblage is given by P (in kbar) = 9.15 - 33.8XPig Mg. Silica activity as determined from olivine-pyroxene exchange equilibria is shown to be a function not only of P, T, and Fe/(Fe + Mg) ratio of the assemblage, but also of the olivine (and pyroxene) Ca content, particularly for the olivine-augite exchange. Библиографическое описание: Thermodynamic analysis of pyroxene-olivine-quartz equilibria in the system CaO-MgO-FeO-SiO2 / Paula M. Davidson, Donald H. Lindsley. - American Mineralogist, Volume 74, pages 18-30, 1989 Тип публикации: статья Загрузить документ DAVIDSON_LINDSLEY_1989.pdf (1.83 Mb) (стр.)
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