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1.
Assuming that the partial molar volume of each chemical component in a magma is constant, the magma density, m , is expressed as 1/ m =C i / fi , whereC i is the weight fraction, and fi is the fractionation density of thei th component. Using this linear relationship between 1/ and weight fraction, the density change due to addition or subtraction of any component can be graphically estimated on 1/ vs oxide wt% diagrams. The compositional expansion coefficient of thei th component, fi , is expressed as i = m / fi –1. The compositional expansion coefficient of H2O has a much larger absolute value than those of any other oxide or mineral components, showing that addition of a small amount of H2O can significantly decrease magma density. These simple expressions facilitate the estimation of magma densities during fractionation.  相似文献   

2.
Because of frequent discrepancies between the available experimental data and the measured composition of alkali chloride aqueous solutions coexisting with two alkali feldspars in high temperatures-low pressures natural systems, a systematic investigation of the system KAlSi3O8-NaAlSi3O8-KCl-NaCl-H2O has been undertaken.Experiments have been carried out at temperatures from 300 °C to 660 °C, pressures from 0.2 to 2 kbar and total chloride concentrations ranging from 0.05 to 14 moles/kg H2O.No effect of pressure on the feldspars solvus could be detected. Smoothing the experimental data on the basis of the regular assymetric solid solution model yields a critical temperature of 661°C and a critical composition of Or0.36Ab0.64.The equilibrium constant C = m KCl/m NaCl does not depend on total chloride molality, as long as the aqueous solution is homogeneous. But, in the miscibility gap (liquid+vapour) of the fluid, C is always lower in the vapour than in the liquid. The higher the temperature and the lower the pressure, the more striking this effect. For instance, at 500 ° C C vaqour/C liquid = 1 above 1 kb, 0.9 at 600 bars, 0.8 at 500 bars, 0.7 at 400–450 bars.The effect of pressure can be neglected in homogeneous fluids and in the liquid phase of unmixed fluids, but it is very important in the vapour phase (dilute solutions at low pressure).The selected values of C max are (±0.01) 300 ° C0.083; 400 ° C0.139; 500 ° C0.200; 600 ° C0.264; 650 ° C0.298Such a behaviour of the fluid at low pressures explains the abnormally low values of m KCl/m NaCl measured in many natural hydrothermal systems. A new mechanism of alkali metasomatism (especially potassic alterations) is also proposed, taking into account the unmixing of alkali chloride aqueous solutions. This model seems particularly interesting in late magmatic hydrothermal processes, such as those occuring in porphyry type deposits.  相似文献   

3.
Summary The crystal structure of papagoite, CaCuAlSi2O6(OH)3, monoclinic,a = 2.926 (3),b = 11.496 (3),c = 4.696 (1) Å, = 100.81 (2)°, V = 685.4 (3) Å3, space groupC 2/m,Z = 4, has been refined to anR index of 3.4% for 913 observed reflections measured with MoK X-radiation. The single unique Cu cation is surrounded by six anions in a pseudo-octahedral arrangement showing strong Jahn-Teller distortion. Edge-sharing rutile-like chains of pseudo-octahedrally coordinated Cu and Al extend in the Y direction, and are cross-linked into an octahedral sheet by Ca2Ø10 (O = unspecified ligand, O or OH) dimers. These sheets are linked by (Si4O12) rings to form a mixed tetrahedral-octahedral framework.
Verfeinerung der Kristallstruktur von Papagoit, CaCuAlSi2O6(OH)3
Zusammenfassung Die Kristallstruktur von Papagoit, CaCuAlSi2O6(OH)3, monoklina = 12,926 (3),b = 11.496 (3),c = 4.696 (1) Å, = 100.81 (2)°,V = 685.4 (3) Å3, RaumgruppeC2/m,Z = 4, wurde für 913 beobachtete, MoK-Röntgenstrahlung gemessene Reflexe aufR = 3,4% verfeinert. Das eine symmetrieunabhängige Kupfer-Kation ist pseudooktaedrisch von sechs Anionen mit einer starken Jahn-Teller-Verzerrung umgeben. Die pseudo-oktaedrisch koordinierten Cu- und Al-Atome werden über Kanten zu parallel zur y-Achse verlaufenden rutil-ähnlichen Ketten verbunden, die zusammen mit den Ca2Ø10-Gruppen (Ø = nicht spezifsierter Ligand, O bzw. OH) Oktaederschichten bilden. Diese Schichten werden durch (Si4O12)-Ringe zu einem aus Tetraedern und Oktaedern bestehenden Netzwerk verknüpft.

With 4 Figures  相似文献   

4.
Zusammenfassung Mikrosondenanalysen und die Verfeinerung der Kristallstruktur zeigen, daß Sylvanit, AuAgTe4, aus Baia de Arie (=Offenbánya), Rumänien, eine stöchiometrische Zusammensetzung und eine geordnete Kristallstruktur besitzt (a=8,95(1) Å,b=4,478(5) Å,c=14,62(2) Å; =145,35(5)°;Z=2; RaumgruppeP2/c–C 2h 4 ). Das Au-Atom ist von sechs Te-Atomen in einer für die Oxidationszahl III charakteristischen [4+2]-Koordination umgeben. Um das Ag-Atom (Oxidationszahl I) sind ebenfalls sechs Te-Atome, jedoch in einer [2+2+2]-Koordination, angeordnet. Über gemeinsame Kanten bauen AuTe6- und AgTe6-Polyeder Schichten parallel (100) auf. Diese Schichten werden über Te2-Hanteln (Te–Te=2,82 Å) zu einem Gerüst verknüpft.
Crystal chemistry of natural tellurides. I: Refinement of the crystal structure of sylvanite, AuAgTe4
Summary Electron microprobe analyses and the refinement of the crystal structure indicate, that sylvanite, AuAgTe4, from Baia de Arie (=Offenbánya), Romania, has a stoichiometric composition and an ordered crystal structure (a=8.95(1) Å,b=4.478(5) Å,c=14.62(2) Å; =145.35(5)°;Z=2; space groupP2/c–C 2h 4 ). The Au atom is surrounded by six Te atoms in a [4+2] coordination as characteristic for oxidation state III. Around the Ag atom (oxidation state I) are also six Te atoms, but arranged in a [2+2+2] coordination. Via common edges the AuTe6 and AgTe6 polyhedra build up sheets parallel to (100). These sheets are combined to a network of Te2 dumbbells (Te–Te=2.82 Å).

Mit 2 Abbildungen  相似文献   

5.
Zusammenfassung Emmonsit kristallisiert triklin, RaumgruppeP , Gitterkonstanten:a 0=7,90 Å,b 0=8,00 Å,c 0=7,62 Å, =96o44, =95o 0, =84o 28,Z=2. Der Strukturtyp wurde aus 3-dimensionalen photographischen Röntgendaten ermittelt. Die Eisenatome werden je von 6 Sauerstoffen verzerrt oktaedrisch koordiniert. Jedes Telluratom wird von 3 Sauerstoffen in einem Abstand <2,0 Å umgeben. Ein vierter Sauerstoff hat bezüglich dieser drei einen um etwa 25–35% größeren Abstand, so daß jedes Telluratom im weiteren Sinne eine (3+1)-Koordination aufweist.
The structure type of emmonsite, {Fe2[TeO3]3·H2O}·xxH2O (x=0–1)
Summary Emmonsite is triclinic with space groupP , and lattice constantsa 0=7.90 Å,b 0=8.00 Å,c 0=7.62 Å, =96o 44, =95o 0, =840 28,Z=2. The structure type is derived from 3-dimensional photographic X-ray data. The iron atoms are coordinated by six oxygens in the form of a distorted octahedron. Each tellurium atom is coordinated to 3 oxygens at a distance <2.0 Å. Compared with these 3 Te–O distance the distance of a fourth oxygen is only 25 to 35% greater; therefore each tellurium atom has a (3+1)-coordination of oxygens.

Mit 2 Abbildungen  相似文献   

6.
The variation of silica activity with temperature and pressure for a variety of silica buffers (mineral pairs) allows P total to be calculated for a wide range of igneous rocks. The method also depends on evaluating ( log a SiO 2/P)T and ( log a SiO 2/ T)p; the former is equivalent to the partial molar volume of silica in silicate liquids, while the latter is estimated from published experiments on natural melts. Results for calc-alkaline rhyolites with phenocrysts of quartz, olivine or orthopyroxene, and iron-titanium oxides, range from 3.45 to 9.58 kilobars; a pantellerite is intermediate at 7.53 kilobars. At 1327° C, the silicate inclusions in diamond equilibrated at 63.5 kilobars, and the kimberlite crystallisation path intersected the baddeleyite-zircon reaction at 55.7 kilobars. Two trachybasalts would equilibrate with their lherzolite xenoliths at 17.0 and 21.0 kilobars at surface quenching temperatures. Potassic lavas such as orendites and ugandites at 1300° C would be in equilibrium with mantle olivine-orthropyroxene at 35.1 and 69.0 kilobars respectively. Basalts and basaltic-andesites could equilibrate (at 1100° C) with quartz at between 24.9 and 26.8 kilobars; quartz can therefore be considered a possible high pressure xenocryst in lavas with low Sr87/Sr86 ratios. Andesites will equilibrate at 1300° C with the mantle at a depth of 75 kilometres; at greater depths andesite will have a basaltic precursor. In general, lavas with low silica activity will equilibrate at greater depths in the mantle than those with higher silica activities.The Apollo 11 basalts contain minerals which suggest equilibration at 37 kilobars; the calculated quenching temperature is 1009° C, from which logf O 2 can be derived (–15.2) which in turn indicates approximately 0.10% Fe2O3 in these lavas.  相似文献   

7.
The partition of Ni between olivine and monosulfide-oxide liquid has been investigated at 1300–1395° C, =10–8-9–10–6.8, and =10–2.0–10–0.9, over the composition range 20–79 mol. % NiS. The product olivine compositions varied from Fo98 to Fo59 and from 0.06 to 3.11 wt% NiO. The metal/sulfur ratio of the sulfide-oxide liquid increases with increase in , decrease in , and increase in NiS content. The Ni/Fe exchange reaction has been perfectly reversed using natural olivine and pure forsterite as starting materials. The FeO and NiO contents of olivine from runs equilibrated at the same and form isobaric distributions with NiS content, which, to a first approximation, are dependent at constant temperature and total pressure on a variable term, –0.5 log ( / ). The Ni/Fe distribution coefficient (K D3) exhibits only a weak decrease from 35 to 29 with increase in from the IW buffer to close to the FMQ buffer. At values higher than FMQ, the sulfide-oxide liquid has the approximate composition (Ni,Fe)3±xS2K D358. The present K D3 vs O/(S+O) data define a trend which extrapolates to K D320 at 10 wt% oxygen in the sulfide-oxide liquid. The compositions of olivine and Ni-Cu sulfides associated with early-magmatic basic rocks and komatiites are consistent, at 1400° C, with a value of -log ( / ) of about 7.7, which is equivalent to 0.0 wt% oxygen in the hypothesized immiscible sulfide-oxide liquid. Therefore, K D3 would not be reduced significantly from the 30 to 35 range for sulfide-oxide liquids with low oxygen contents.  相似文献   

8.
Provisional activity-composition relations have been developed for spinels in the system FeO-MgO-Fe2O3-Al2O3-Cr2O3-TiO2. These relations are based on a Temkin type model for the configurational entropy combined with a third-degree Taylor's series expansion to describe the excess Gibbs energy of mixing that is the result of describing spinels in terms of a set of fictive ordered and inverse spinel components. The coefficients of this expansion have been identified as (1) reciprocal Mg-Fe exchange terms, (2) binary asymmetric Margules parameters, and (3) Margules and Bragg-Williams type terms which make explicit provision for mixing of Fe and Mg on two sites in ulvospinel. Provisional values have been assigned to these terms for the temperature range 900–1,250°C based on inferred and experimentally determined spinel miscibility gaps, Fe-Mg olivine-spinel exchange data reported in the literature, and 40 experimental determinations of Fe-Mg partitioning between olivines and spinels in basanitic to uganditic silicate liquids between 1,092 and 1,300°C ( QFM).  相似文献   

9.
The surface tension between silicate liquid and gas has been measured for four lava compositions (limburgite to andesite) from 1,200° to 1,500° C. The magnitude of surface tension () is in the range 350–370 dynes/cm. Variations found in as a function of liquid composition were small and had no obvious relation to liquid composition. was also found to vary little with furnace atmosphere — air, Ar, CO2, H2, CO and their mixtures. A relaxation time of hours to days, depending on temperature, is required before reproducible results can be obtained from originally crystalline starting material.The reproducible temperature dependence of for complex silicate liquid solutions was found to be small, positive, and a relatively simple function of liquid composition. To a first approximation, the dependence of d/dT on composition found by King (1953) for simple silicate binaries appears to extend to the complex solutions measured here. The extent of progressive dissociation of liquid constituents implied by the increase of with T appears to be principally determined by the average field strength (Z/R) of the network-modifying cations in the liquid and abundance of network-forming constituents . The actual amount of structural dissociation implied by these results reduces the molar volume of the average structural unit by at most 5% for a 100° C increase in temperature. Evidently the polymerization of coordination polyhedra is fairly stable over this temperature and composition range.  相似文献   

10.
Summary If heulandite is heated to 300–400°C for at least 12 hours it is transformed to heulandite B, the ideal composition of which is (Ca, Na2)Al2Si7O18·2H2O. Heulandite B crystallizes monoclinic,C2/m being the most probable space group; lattice constants:a=16.95,b=16.42,c=7.28 , =117°47;Z=4. The most important alteration that heulandite undergoes during the change of phase is a rotation of its fundamental polyhedral unit (formed of 4- and 5-membered tetrahedral rings). As a result of this rotation the geometrical shape of the two kinds of channels parallel toc is changed considerably; their section, which in the low-temperature phase is practically circular, becomes markedly elliptical, with the major axis of the ellipse parallel to [102] for the larger channels, and parallel tob for the smaller channels.
Der Strukturtyp des Heulandits B (wärmegeschrumpfte Phase)
Zusammenfassung Wenn Heulandit mindestens 12 Stunden auf 300–400°C erhitzt wird, wandelt er sich in Heulandit B um; dieser hat die ideale chemische Zusammensetzung (Ca, Na2)Al2Si7O18·2H2O. Heulandit B kristallisiert monoklin, wahrscheinliche Raumgruppe istC2/m; Gitterkonstanten:a=16,95,b=16,42,c=7,28 , =117°47;Z=4. Die wichtigste Änderung des Heulandits bei dieser Phasenumwandlung ist eine Drehung seiner Hauptpolyedergruppe, die aus Vierer- und Fünferringen aufgebaut ist. Als Folge dieser Drehung ändert sich die geometrische Gestalt der beiden Arten von Kanälen parallelc beträchtlich; ihr Querschnitt, der in der Tieftemperatur-Phase praktisch kreisförmig ist, wird deutlich elliptisch, und zwar für die größeren Kanäle mit größerer Ellipsenachse parallel [102] und für die kleineren Kanäle mit größerer Ellipsenachse parallelb.

With 4 Figures  相似文献   

11.
The timescale of structural relaxation in a silicate melt defines the transition from liquid (relaxed) to glassy (unrelaxed) behavior. Structural relaxation in silicate melts can be described by a relaxation time, , consistent with the observation that the timescales of both volume and shear relaxation are of the same order of magnitude. The onset of significantly unrelaxed behavior occurs 2 log10 units of time above . In the case of shear relaxation, the relaxation time can be quantified using the Maxwell relationship for a viscoelastic material; S = S/G (where S is the shear relaxation time, G is the shear modulus at infinite frequency and S is the zero frequency shear viscosity). The value of G known for SiO2 and several other silicate glasses. The shear modulus, G , and the bulk modulus, K , are similar in magnitude for every glass, with both moduli being relatively insensitive to changes in temperature and composition. In contrast, the shear viscosity of silicate melts ranges over at least ten orders of magnitude, with composition at fixed temperature, and with temperature at fixed composition. Therefore, relative to S, G may be considered a constant (independent of composition and temperature) and the value of S, the relaxation time, may be estimated directly for the large number of silicate melts for which the shear viscosity is known.For silicate melts, the relaxation times calculated from the Maxwell relationship agree well with available data for the onset of the frequency-dependence (dispersion) of acoustic velocities, the onset of non-Newtonian viscosities, the scan-rate dependence of the calorimetric glass transition, with the timescale of an oxygen diffusive jump and with the Si-O bond exchange frequency obtained from 29Si NMR studies.  相似文献   

12.
The effect of water on heat capacity has been determined for four series of hydrated synthetic aluminosilicate glasses and supercooled liquids close to albite, phonolite, trachyte, and leucogranite compositions. Heat capacities were measured at atmospheric pressure by differential scanning calorimetry for water contents between 0 and 4.9 wt % from 300 K to about 100 K above the glass transition temperature (Tg). The partial molar heat capacity of water in polymerized aluminosilicate glasses, which can be considered as independent of composition, is (J/mol K). In liquids containing at least 1 wt % H2O, the partial molar heat capacity of water is about 85 J/mol K. From speciation data, the effects of water as hydroxyl groups and as molecular water have tentatively been estimated, with partial molar heat capacities of 153 ± 18 and 41 ± 14 J/mol K, respectively. In all cases, water strongly increases the configurational heat capacity at Tg and exerts a marked depressing effect on Tg, in close agreement with the results of viscosity experiments on the same series of glasses. Consistent with the Adam and Gibbs theory of relaxation processes, the departure of the viscosity of hydrous melts from Arrhenian variations correlates with the magnitude of configurational heat capacities.  相似文献   

13.
Zusammenfassung 1Tc-Strontiohilgardit (Ca, Sr)2 [B5O8(OH)2,Cl] mit Ca : Sr etwa 1 : 1 ist ein neues Mineral der Hilgarditgruppe. Fundpunkt: Reyersbausen (9° 59,7 E, 51° 36,6 N), Grube Königshall-Hindenburg, Flöz Staßfurt in sylvinitischer Ausbildung.Konstanten : triklin-pedial,a 0=6,38 Å,b 0=6,480 Å,c 0=6,608 Å, =75,4°,=61,2°, =60,5°; tafelige-gestreckte Links- und Re chtskristalle, farblos, wasserunlöslich, piezoelektrisch. Härte 5–7, Dichte 2,99 g cm–3;n =1,638,n =1,639,n =1,670; 2V =19°.Neue Daten für die Hilgarditgruppe : 2 M (Cc)-Calciumhilgardit (=Hilgardit) =4 Ca2[B5O3(OH)2Cl], Raumgruppe Cc.3Tc-Calciumhilgardit (=Parahilgardit) = 3 Ca2[B5O3(OH)2Cl]; trinklin-pedial, 0=6,31 Å,b =6,484 Å,c 0=17,50 Å; =84,0°,=79,6°, =60,9°.Die Polymorphiebeziehungen sind geometrisch deutbar durch eine spezielle Art der Polytropie (Stapelung von Links- und Rechtskristallen im Elementarbereich).  相似文献   

14.
Summary A crystal structure determination of the mineral nealite, Pb4Fe(AsO3)2Cl4 . 2H2O, (a = 6.548(4), b = 10.243(8), c = 5.587(3) [Å]; = 96.2(1), = 89.6(1), = 97.7(1) [°]; Z = 1; space group ) was performed using single crystal X-ray data and a direct method strategy; the structural parameters were fitted by least squares techniques. The structure is characterized by isolated FeO2Cl2(H2O)2 octahedra (Fe-O: 2.08 Å, 2x, and 2.12 Å, 2x, Fe-Cl: 2.60 Å, 2x) and AsO3 pyramids (As-O from 1.79 to 1.89 Å) which are connected by PbO4Cl4 and PbO5Cl4 polyhedra to a framework (with Pb-O distances from 2.22 to 3.34 Å, Pb-Cl distances from 3.10 to 3.54 Å). Oscillation photographs, exposed for 20 h, show very faint streaks indicating a doubling of c, probably caused by a partial ordering of a split lead atom position. Nealite is the first mineral found to contain a divalent iron atom coordinated to oxygen and chlorine atoms simultaneously.
Änderung der chemischen Formel des Nealits, Pb4Fe(AsO3)2Cl4 . 2H2O, basierend auf der Kristallstrukturbestimmung
Zusammenfassung Die Kristallstrukturbestimmung des Minerals Nealit, Pb4Fe(AsO3)2Cl4 . 2H2O, a = 6.548(4), b = 10.243(8), c = 5.587(3) [Å]; = 96.2(1), = 89.6(1), = 97.7(1) [°]; Z = 1; Raumgruppe ) wurde anhand von röntgenographischen Einkristalldaten mit direkten Methoden durchgeführt und die Strukturparameter nach der Methode der kleinsten Quadrate verfeinert. Die Kristallstruktur ist charakterisiert durch isolierte FeO2Cl2(H2O)2-Oktaeder (Fe-O: 2.08 Å, 2x, und 2.12 Å, 2x, Fe-Cl: 2.60 Å, 2x) und AsO3-Pyramiden (As-O von 1.79 Å bis 1.89 Å), welche durch PbO4Cl4 und PbO5Cl4-Polyeder zu einem Gerüst verknüpft sind (Pb-O von 2.22 bis 3.34 Å und Pb-Cl von 3.10 bis 3.54 Å). Schwenkaufnahmen, etwa 20 h belichtet, zeigen sehr feine Schwärzungsstreifen, die auf eine Verdopplung von c hinweisen, möglicherweise durch eine teilweise Ordnung einer aufgespaltenen Position eines Bleiatoms hervorgerufen. Nealit ist das erste Mineral, in dem ein zweiwertiges Eisenatom gleichzeitig an Sauerstoff- und Chloratome gebunden ist.

Dedicated to Prof. Dr. Josef Zemann (Vienna) on the occasion of his 70th birthday

With 1 Figure  相似文献   

15.
Summary The crystal structure of liebigite, previously only incompletely known from a short note, has been determined from X-ray 4-circle diffractometer data and refined toR=0.030 for 3005 observed reflections. Liebigite from Joachimsthal, Böhmen, was used. It was found to crystallize in the polar orthorhombic space groupBba2–C 2v 17 witha=16.699(3),b=17.557(3),c=13.697(3) Å,V=4016 Å3 and a cell content of 8 Ca2UO2(CO3)3·11H2O. The structure contains UO2(CO3)3 units which are linked by two kinds of CaO4(H2O)4 polyhedra and one kind of CaO3(H2O)4 polyhedron to form puckered Ca2UO2(CO3)3·8H2O layers parallel to (010). These layers are interconnected only by hydrogen bonds, both directly as well as via three additional interlayer H2O molecules, two of which show positional disorder.
Die Kristallstruktur des Liebigits, Ca2UO2(CO3)3·11H2O
Zusammenfassung Die Kristallstruktur des Minerals Liebigit, die bis jetzt nur unzureichend bekannt war, wurde mit Röntgen-Vierkreisdiffraktometer-Daten bestimmt und für 3005 beobachtete Reflexe aufR=0,030 verfeinert. Der untersuchte, von Joachimsthal, Böhmen, stammende Liebigit kristallisiert in der polaren rhombischen RaumgruppeBba2–C 2v 17 mita=16,699(3),b=17,557(3),c=13,697(3) Å,V=4016 Å3 und einem Zellinhalt von 8 Ca2UO2(CO3)3·11H2O. Die Struktur enthält UO2(CO3)3-Gruppen, die durch zwei Arten von CaO4(H2O)4-Polyedern und eine Art von CaO3(H2O)4-Polyedern zu buckeligen Ca2UO2(CO3)3·8H2O-Schichten parallel (010) verknüpft sind. Diese Schichten sind nur durch Wasserstoffbrücken verbunden, und zwar sowohl direkt als auch mittels dreier zusätzlicher freier Wassermoleküle, von denen zwei eine Lagenfehlordnung aufweisen.

With 3 Figures  相似文献   

16.
Oxygen and carbon isotope compositions were determined for calcites from the Green Tuff formations of Miocene age in Japan. Values of 18O from 24 calcites in altered rocks from 5 districts range from –2 to +16SMOW, in most cases from 0 to +8SMOW. The low 18O values rule out the possibility of their low-temperature origin or any significant contribution of magmatic fluid in the calcite precipitation. These values, coupled with their mineral assemblages, suggest that the calcites formed from meteoric hydrothermal solutions which caused propylitic alteration after the submarine strata became emergent.Values of 13C from the calcites show a wide variation from –17 to 0PDB. Calcites from different districts have different ranges of 13C values, indicating that there was no homogeneous reservoir of carbon at the time the calcite formed, and that the carbon had local sources. Carbon isotopic compositions of calcite within ore deposits in the Green Tuff formations range from –19 to 0PDB, similar to those of calcite in the altered rocks in the same district, suggesting that the carbon in ore calcites was likely supplied from the surrounding rocks through activity of meteoric hydrothermal solutions.  相似文献   

17.
Mean and turbulent velocity measurements of supersonic mixing layers   总被引:1,自引:0,他引:1  
The behavior of supersonic mixing layers under three conditions has been examined by schlieren photography and laser Doppler velocimetry. In the schlieren photographs, some largescale, repetitive patterns were observed within the mixing layer; however, these structures do not appear to dominate the mixing layer character under the present flow conditions. It was found that higher levels of secondary freestream turbulence did not increase the peak turbulence intensity observed within the mixing layer, but slightly increased the growth rate. Higher levels of freestream turbulence also reduced the axial distance required for development of the mean velocity. At higher convective Mach numbers, the mixing layer growth rate was found to be smaller than that of an incompressible mixing layer at the same velocity and freestream density ratio. The increase in convective Mach number also caused a decrease in the turbulence intensity ( u /U).List of Symbols a speed of sound - b total mixing layer thickness betweenU 1 – 0.1U andU 2 + 0.1U - f normalized third moment ofu-velocity,f u 3/(U)3 - g normalized triple product ofu 2 v,g u 2 v/(U)3 - h normalized triple product ofu v 2, h uv' 2/(U)3 - l u axial distance for similarity in the mean velocity - l u axial distance for similarity in the turbulence intensity - M Mach number - M c convective Mach number (for 1=2),M c (U 1U 2)/(a 1+a 2) - P static pressure - r freestream velocity ratio,rU 2/U 1 - Re unit Reynolds number,Re U/ - s freestream density ratio,s 2/ 1 - T t total temperature - u instantaneous streamwise velocity - u deviation ofu-velocity,u u–U - U local mean streamwise velocity - U 1 primary freestream velocity - U 2 secondary freestream velocity - U average of freestream velocities, ¯U (U 1 +U 2)/2 - U freestream velocity difference,U U 1U 2 - v instantaneous transverse velocity - v deviation ofv-velocity,v v – V - V local mean transverse velocity - x streamwise coordinate - y transverse coordinate - y 0 transverse location of the mixing layer centerline - ensemble average - ratio of specific heats - boundary layer thickness (y-location at 99.5% of free-stream velocity) - similarity coordinate, (yy 0)/b - compressible boundary layer momentum thickness - viscosity - density - standard deviation - dimensionless velocity, (UU 2)/U - 1 primary stream - 2 secondary stream A version of this paper was presented at the 11th Symposium on Turbulence, October 17–19, 1988, University of Missouri-Rolla  相似文献   

18.
Shombole, a nephelinite-carbonatite volcano in south Kenya, erupted silicate lavas, carbonatite dikes and tuffs, and pyroclastic rocks similar to those at other East African alkaline centres. Shombole lavas containing cpx + nepheline + accessory minerals range from perovskite-bearing nephelinites (43% SiO2, volatile-free) to sphene-bearing and phonolitic nephelinites (46–49% SiO2) and phonolites (49–56% SiO2) and have low peralkalinity ([Na+K]/Al 1.15) which does not correlate with SiO2. Early fractionation of olivine and clinopyroxene strongly depleted Ni and Cr concentrations (10 ppm); fractionation of perovskite, melanite, sphene, and apatite produced negative correlations of all REE with SiO2. Many lavas contain cognate intrusive xenoliths and xenocrysts and oscillatory zoning is a common feature of clinopyroxene, nepheline, and melanite crystals, indicating recycling of intrusive material. Irregular calcite-rich bodies in many samples are interpreted as quenched immiscible Ca-carbonatite liquid, and [Ca-carbonate]-silicate liquid immiscibility is observed in experiments with one nephelinite. Chemical variation in the Shombole suite can be modeled as a combination of crystal fractionation (clinopyroxene and heavy minor phases) and retention of neutral density nepheline derived from disaggregated xenoliths entrained during emplacement of dike swarms. Six newly analyzed lavas from Oldoinyo L'engai, northern Tanzania, are geochemically similar to Shombole nephelinites except that they have relatively high Na2O+K2O (average 18% vs 12%) and Zr (average 680 ppm vs 400 ppm). They are extremely peralkaline and are not typical of nephelinites from other centres. Three with [Na+K]/Al1.5 contain euhedral wollastonite phenocrysts; three with [Na+K]/Al2.0 contain combeite (Na2Ca2Si3O9) phenocrysts and pseudomorphs after wollastonite. Both types contain abundant sodalite phenocrysts (+nepheline+clinopyroxene+melanite+sphene). Seven other wollastonite nephelinite samples from L'engai have been described, but it is a lava type rarely seen in other centres. Combeite has been described from only two other locations (Mt. Shaheru, Zaire; Mayener Feld, Eifel). The hyperalkaline L'engai nephelinites have compositions similar to those of experimental silicate liquids immiscible with natrocarbonatite. Textural evidence for both carbonate-silicate (as carbonate globules) and silicate-silicate (as two optically discrete glasses with distinct compositions) liquid immiscibility is observed in the samples.  相似文献   

19.
Zusammenfassung Im Älteren Steinsalz von Reyershausen bei Göttingen wurde eine neue Veatchit-Varietät gefunden mita 0 = 6,721 Å,b 0 = 20,81 Å,c 0 = 6,647 Å, = 119° 4; Raumgruppe oderP21,Z = 4[(Sr, Ca) O · 3 B2O3 · 2 H2O]. (010) ist die Ebene der vollkommenen Spalt-barkeit. Die Polymorphie der Veatehit-Minerale wird geometrisch durch geringfügige Deformationen der rhombischen Raumgruppe (bzw.A21 a m) erklärt.Der neue Vertreter wirdp-Veatehit (mit einfach-primitivem Raumgitter) genannt im Unterschied zum Original-Veatehit, der in die Raumgruppe gehört und dessen Symametrieebene senkrecht auf der vollkommenen Spaltebene steht.  相似文献   

20.
Summary A hitherto unknown TI-sulfosalt, containing antimony and arsenic, was discovered by ore microscopy (including quantitative reflectance measurements) and electron microprobe analysis in samples from the Allchar TI-Sb-As sulfide ore deposit (Macedonia). The chemical formula is TI5Sb9(As,Sb)4S22, X-ray single crystal and powder diffration data gave the lattice parameters o = 7.393(4) Å, b0 = 8.707(2) Å, co = 17.584(3) Å, = 103.81(1)°, = 91.79(1)°, = 109.50(1)°; space group , Z = 1. The new mineral and the new mineral naine jankoviéite have been approved by the IMA/CNMMN.
Jankoviit, Tl5Sb9(As,Sb)4S22, ein neues TI-Sulfosalz aus Allehar, Macedonien
Zusammenfassung Ein bislang unbekanntes Thallium-Antimon-Arsen-Sulfosalz wurde mittels Erzmikroskopie (inklusive quantitativer Reflexionsmessungen) und Elektronenstrahl-Mikrosonde in Proben aus der TI-Sb-As-Sulfid-Lagerstätte Allchar in Macedonien entdeckt. Die chemische Formel lautet Tl5Sb9(As,Sb)4S22, aus Röntgen-Einkristallaufnahmen und Pulverdiffraktogrammen konnten folgende Gitterkonstanten bestimmt werden: ao = 7.393(4) Å, bo = 8.707(2) _Å, co = 17.584(3) Å, a = 103.81(1)°, = 91.79(1)°, = 109.50(1)°; Raumgruppe , Z = 1. Das neue Mineral, sowie der neue Mineralname Jankoviit wurden durch die IMA/CNMMN anerkannt.
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