DIFFUSION OF CHLORINE IN GRANITIC MELTS
暂无分享,去创建一个
[1] D. Neuville,et al. Thermodynamic and rheological properties of rhyolite and andesite melts , 1993 .
[2] A. Jambon,et al. Experimental dehydration of natural obsidian and estimation of DH2O at low water contents. , 1992, Geochimica et cosmochimica acta.
[3] J. Webster. Water solubility and chlorine partitioning in Cl-rich granitic systems: Effects of melt composition at 2 kbar and 800°C , 1992 .
[4] Joseph N. Moore,et al. The formation and distribution of CO2-enriched fluid inclusions in epithermal environments , 1992 .
[5] E. Spooner,et al. The volatile geochemistry of magmatic H2O-CO2 fluid inclusions from the Tanco zoned granitic pegmatite, southeastern Manitoba, Canada☆ , 1992 .
[6] E. Watson. Diffusion of dissolved CO2 and Cl in hydrous silicic to intermediate magmas , 1991 .
[7] Youxue Zhang,et al. Water diffusion in a basaltic melt , 1991, Nature.
[8] R. Yund,et al. Oxygen diffusion in quartz: Dependence on temperature and water fugacity , 1991 .
[9] A. Andrew,et al. Fluid inclusion and stable isotope evidence for interaction between granites and magmatic hydrothermal fluids during formation of disseminated and pipe-style mineralization at the Zaaiplaats tin mine , 1991 .
[10] D. Baker. Interdiffusion of hydrous dacitic and rhyolitic melts and the efficacy of rhyolite contamination of dacitic enclaves , 1991 .
[11] G. Wasserburg,et al. Diffusion of water in rhyolitic glasses. , 1991, Geochimica et cosmochimica acta.
[12] P. G. Bukhtiyarov,et al. The effect of volatiles on the properties of magmatic melts , 1990 .
[13] D. Dingwell,et al. Non-Newtonian Rheology of Igneous Melts at High Stresses and Strain Rates: Experimental Results for Rhyolite, Andesite, Basalt, and Nephelinite , 1990 .
[14] D. Dingwell,et al. Relaxation in silicate melts;Relaxation in silicate melts , 1990 .
[15] J. Webster. Partitioning of F between H2O and CO2 fluids and topaz rhyolite melt , 1990 .
[16] D. Dingwell,et al. Relaxation in silicate melts , 1990 .
[17] D. Dingwell,et al. Effects of structural relaxation on cationic tracer diffusion in silicate melts , 1990 .
[18] D. Dingwell,et al. Structural relaxation in silicate melts and non-Newtonian melt rheology in geologic processes , 1989 .
[19] J. Webster,et al. Experimental constraints on the partitioning of Cl between topaz rhyolite melt and H2O and H2O + CO2 fluids: New implications for granitic differentiation and ore deposition , 1988 .
[20] H. Westrich,et al. Degassing of rhyolitic magma during ascent and emplacement , 1988 .
[21] E. Watson,et al. Diffusion of major and trace elements in compositionally complex Cl- and F-bearing silicate melts , 1988 .
[22] E. Oelkers,et al. Calculation of the thermodynamic and transport properties of aqueous species at high pressures and temperatures: dissociation constants for supercritical alkali metal halides at temperatures from 400 to 800.degree.C and pressures from 500 to 4000 bar , 1988 .
[23] J. R. Goldsmith. Enhanced Al/Si Diffusion in KAlSi3O8 at High Pressures: The Effect of Hydrogen , 1988, The Journal of Geology.
[24] S. Elphick,et al. The effect of hydrogen on oxygen diffusion in quartz: evidence for fast proton transients? , 1988, Nature.
[25] J. R. Goldsmith. Al/Si interdiffusion in albite: effect of pressure and the role of hydrogen , 1987 .
[26] D. Dingwell,et al. Melt viscosities in the system NaAlSi3O8-H2O-F2O-1 , 1987 .
[27] H. Eugster. Minerals in hot water , 1986 .
[28] D. Dingwell,et al. Chemical diffusion of fluorine in melts in the system Na2OAl2O3SiO2 , 1985 .
[29] R. Lowry,et al. Structural controls and mechanisms of diffusion in natural silicate melts , 1985 .
[30] H. Eugster. Granites and hydrothermal ore deposits: a geochemical framework , 1985, Mineralogical Magazine.
[31] D. Dingwell,et al. Chemical diffusion of fluorine in jadeite melt at high pressure , 1984 .
[32] E. Watson,et al. The behavior of apatite during crustal anatexis: Equilibrium and kinetic considerations , 1984 .
[33] W. L. Marshall,et al. Electrical conductances and ionization constants of salts, acids, and bases in supercritical aqueous fluids; I, Hydrochloric acid from 100 degrees to 700 degrees C and at pressures to 4000 bars , 1984 .
[34] H. D. Holland,et al. The partitioning of copper and molybdenum between silicate melts and aqueous fluids , 1984 .
[35] I. Kushiro. Effect of pressure on the diffusivity of network-forming cations in melts of jadeitic compositions , 1983 .
[36] E. Watson,et al. Kinetics of zircon dissolution and zirconium diffusion in granitic melts of variable water content , 1983 .
[37] A. Jambon. Tracer diffusion in granitic melts: Experimental results for NA, K, RB, CS, CA, SR, BA, CE, EU to 1300°C and a model of calculation , 1982 .
[38] E. Bruce Watson,et al. Diffusion of dissolved carbonate in magmas: Experimental results and applications , 1982 .
[39] E. Stolper. The speciation of water in silicate melts , 1982 .
[40] R. E. Beane,et al. Contrasting evolutions of hydrothermal alteration in quartz monzonite and quartz diorite wall rocks at the Sierrita porphyry copper deposit, Arizona , 1982 .
[41] E. Watson. Basalt contamination by continental crust: Some experiments and models , 1982 .
[42] W. L. Marshall,et al. Ion Product of Water Substance, 0-1000 C, 1-10,000 Bars. New International Formulation and Its Background, , 1981 .
[43] E. Watson,et al. Diffusion in magmas at depth in the Earth: The effects of pressure and dissolved H2O , 1981 .
[44] J. Delaney,et al. Ion microprobe studies of water in silicate melts: Temperature-dependent water diffusion in obsidian , 1981 .
[45] N. Boctor,et al. Mineral-solution equilibria—V. Solubilities of rock-forming minerals in supercritical fluids , 1981 .
[46] G. Brown,et al. Polymerization of silicate and aluminate tetrahedra in glasses, melts and aqueous solutions—II. The network modifying effects of Mg2+ , K+, Na+, Li+, H+, OH−, F−, Cl−, H2O, CO2 and H3O+ on silicate polymers , 1980 .
[47] B. L. Butler,et al. Infrared Spectra of a Water‐Containing Glass , 1980 .
[48] A. K. V. Groos,et al. Effect of pressure on liquid immiscibility in the system K 2 O-FeO-Al 2 O 3 -SiO 2 -P 2 O 5 , 1979 .
[49] E. Watson. Diffusion of Cesium Ions in H2O-Saturated Granitic Melt , 1979, Science.
[50] W. Lanford,et al. Hydration of soda-lime glass , 1979 .
[51] C. Burnham. Magmas and hydrothermal fluids. , 1979 .
[52] H. R. Shaw. Viscosities of magmatic silicate liquids; an empirical method of prediction , 1972 .
[53] C. Burnham,et al. Partitioning of Chloride Between a Silicate Melt and Coexisting Aqueous Phase from 2 to 8 Kilobars , 1972 .
[54] John R. Holloway,et al. Internally Heated Pressure Vessels , 1971 .
[55] A. K. V. Groos,et al. Melting Relationships in the System NaAlSi3O8-NaCl-H2O at One Kilobar Pressure, with Petrological Applications , 1969, The Journal of Geology.
[56] J. H. Norman,et al. A STUDY OF THE DIFFUSION OF RADIOACTIVE NUCLIDES IN MOLTEN SILICATES AT HIGH TEMPERATURES. , 1969 .
[57] D. L. Hamilton,et al. The Preparation of Silicate Compositions by a Gelling Method , 1968 .
[58] O. F. Tuttle,et al. ORIGIN OF GRANITE IN THE LIGHT OF EXPERIMENTAL STUDIES IN THE SYSTEM NaAlSi3O8–KAlSi3O8–SiO2–H2O , 1958 .
[59] John Crank,et al. The Mathematics Of Diffusion , 1956 .
[60] W. Bond. Making Small Spheres , 1951 .
[61] O. F. Tuttle,et al. TWO PRESSURE VESSELS FOR SILICATE-WATER STUDIES , 1949 .