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The so-called 10- phase of the MgO-SiO2-H2O (MSH) system wassynthesized with 100% yields from a 3: 4 MgO/SiO2 gel at fluidpressure of 50 kb and 500 C, but only during runs of up to1 h and with total H2O contents near 50 wt. % in the sealedcapsules. The water contents determined in the run productsindicate a chemical composition Mg3Si4O10(OH)20.65 H2O, whichis different from the composition reported by Bauer & Sclar(1981), which had 1 H2O molecule per talc formula. The 10-phase has a = 5.293(3) , b = 9.194(3) , c = 10.044(3) , ß=96.10(8)its calculated density is pcalc.= 2.672 g/cm3; the refractiveindices measured are nx = 1.554. and nx = 1.574. The compatibilityof mean refractive index, calculated density, and chemical compositionfalls within the category excellent of Mandarino(1979). Runs of longer durations and with total H2O again near 50 wt.%, seeded with the less hydrous phase talc with the same Mg/Siratio, show that the 10- phase breaks down in the range 3070kb, 200700 C to form more talc. Thus it is not the stablehydrous high-pressure equivalent of talc as reported by Yamamoto& Akimoto (1977), but a metastable phase, which cannot playany role as a natural mineral of the mantle or of subductionzones. If the tie-line forsterite-H2O is stable in the MSH system,as it seems to be for the conditions of our experiments, mostof the hydrous, silica-poor, new high-pressure MSH phases maybe without significance for the Earth, except perhaps phaseA with as yet an ambiguous composition. 相似文献
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The mutual solubility in the system corundumhematite[-(Al, Fe3+)2O3] was investigated experimentally using bothsynthetic and natural materials. Mixtures of -Al2O3 and -Fe2O3(weight ratios of 8:2 and 10:1) were used as starting materialsfor synthesis experiments in air at 8001300°C withrun times of 734 days. Experiments at 840 kbarand 4901100°C were performed in a piston-cylinderapparatus (run times of 0·87·4 days) usinga natural diasporite consisting of 6070 vol. % diasporeand 2030 vol. % Ti-hematite. During the diasporitecorunditetransformation, the FeTiO3 component (1218 mol %) ofTi-hematite only slightly increased, implying that oxygen fugacitywas maintained at high values. Run products were studied byelectron microprobe and X-ray diffraction (Rietveld) techniques.An essentially linear volume of mixing exists in the solid solutionwith a slight positive deviation at the hematite side. Up to1000°C, corundum contains <4 mol % Fe2O3 and hematite<10 mol % Al2O3; at 1200°C these amounts increase to9·3 and 17·0 mol %, respectively. At 1300°Chematite was no longer stable and coexists with the orthorhombic phase . The present results agree with corundum (solvus) compositions obtained inprevious studies but indicate a larger solubility of Al in hematite.The miscibility gap in the solution can be modelled with anasymmetric Margules equation with interaction parameters (2uncertainties): ; ; ; . Application of the corundumhematite solution as a solvus geothermometer is limited because of thescarcity of suitable rock compositions. KEY WORDS: corundum; hematite; corundumhematite miscibility gap; experimental study; Margules model; metabauxite 相似文献
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