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1.
Summary Baotite occurs in the Garaoulére orebody, at Pierreftte, France, as an accessory mineral, included in alstonite and celsian, and associated with sphalerite, galena, pyrite, siderite and calcite in hydrothermal veins crosscutting calcareous, rutile-bearing, siltstones. Microprobe analyses revealed high W03 concentrations (up to 6 wt.%) in baotite. The empirical formula of W-rich baotite is Ba3.959Ti4(Ti3.169W0.393Fe0.116Al0.073 Cr0.048Nb0.024)3.823 Si4.05O28Cl1.166. The excess of charges due to the presence of W6+ and Nb5+ is compensated by the introduction of M3+ (Fe, Al, Cr) into Ti-octahedra, by the appearance of Al in Si-tetrahedra (for W-poor baotite) and by the appearance of vacancies in Ti-octahedra (3Ti4 -> 2W6+ + and in Ba-sites (Ti4+ Ba2+ W6+, ). The unit-cell parameters of W-rich baotite are: a = 19.92(2), c = 5.930(8) Å. Niobium-rich baotites (Baiyun-Obo,Semenov et al., 1961; Karlstein,Nmec, 1987) are characterized by substitutions: Ti4+(VI), Si4+(IV)Nb5+(VI), Al3+(IV) and 2Ti4+, Ba2+ 2Nb5+, .
Wolfram führender Baotit von Pierrefitte, Pyrenäen, Frankreich
Zusammenfassung Baotit kommt in dem Garaoulére Erzkórper in Pierrefitte, Frankreich als ein akzessorisches Mineral in Einschlÿussen in Alstonit und Celsian vor. Er ist mit Zinkblende, Bleiglanz, Pyrit, Siderit und Calcit assoziiert. Diese Paragenese ist an hydrothermale Gänge gebunden, die kalkige rutil-führende Siltsteine durchsetzen. Mikrosondenanalysen zeigen hohe W03 Gehalte (bis zu 6 Gew.%) in Baotit. Die empirische Formel von wolfram-reichem Baotit ist: Ba3.959Ti4(Ti3.169W0.393Fe0.116Al0.073Cr0.048Nb0.024)3.823 Si4.05O28Cl1.66. Der durch die Anwesenheit von W6+ und Nb5+ erforderliche Ladungsausgleich ergibt sich durch das Eintreten von M3+ (Fe, Al; Cr) in Ti-Oktaeder, und von Al in Si-Tetraeder (für W-armen Baotit) und schließlich durch das Erscheinen von Leerstellen in Ti-Oktaedern (3Ti4+ 2W6+ + und in Ba-Stellen (Ti4+, Ba` W6+, Die Zellparameter von ldW-reichem Baotit sind: a = 19.92(2), c = 5.930(8) Å. Niob-reiche Baotite (Baiyun-Obo, Semenov et al., 1961; Karlstein, Nmec, 1987) sind durch Substitutionen charakterisiert: Ti4+(VI), Si4+(IV)Nb5+(VI), Al3+(IV) und 2Ti4+, Ba2+ 2Nb5+, .相似文献
2.
The synthesis boundaries of the phase transformation; ++ in (Mg0.9, Fe0.1)SiO4, have been clarified at temperatures to 2000° C and pressures up to 20 GPa in order to synthesize single crystals of high quality. A single crystal of (Mg0.9, Fe0.1)2SiO4 was grown successfully to a size of 500 m. The crystal structure has been refined from single-crystal X-ray intensities. The ferrous ions prefer M1 and M3 sites to over the larger M2 site. The volume change of all the occupied polyhedra does not contribute to the decrease of total volume in the transformation; rather it tends to increase the bulk volume through the expansion of occupied tetrahedra. The volume reduction in the phase transformations is accounted for by unoccupied polyhedra, with the octahedra contributory 60% and the tetrahedra 40% to the V of the transition. The volume change in the transformation is caused also partly by the volume decrease of MO
6 (25%), partly the unoccupied tetrahedra (45%) and octahedra (30%). 相似文献
3.
Gordillo C. E. Schreyer W. Werding G. Abraham K. 《Contributions to Mineralogy and Petrology》1985,90(1):93-100
NaBe-cordierites (Fe/(Fe+Mn+Mg)=0.49–0.57) with BeO contents up to 1.16 weight % and additional Li2O contents up to 0.21 wt.% occur in cordierite-apatite-uraninite-muscovite-biotite-chlorite-feldspar-quartz nodules within pegmatites penetrating gneissic roof pendants of a lower Palaeozoic granite batholith. Occasional small crystals of beryl are interpreted to coexist stably with unaltered cordierite. Be and Li are incorporated in cordieriteaccording to the substitutions Na[Channel] + Be[4] Al[4] and Na[Ch]+Li[6]R2+[6], respectively. The coexisting phyllosilicates do apparently not contain appreciable amounts of Li. According to powder IR-data, the analyzed water contents of the cordierites are dominantly of type II, and there is also little CO2. Their distortion indices are rather low (0.121–0.145) and so are their optic angles (2V=50-51°). Considering all eleven NaBeLi-cordierites known thus far there is a strong positive correlation between Na and (Be+Li) with a slope close to 1.0. However, there is virtually no correlation between Be and Li, their incorporation into cordierite depending on the local geochemical environment. A strong negative correlation exists between the distortion indices of the NaBeLi-cordierites and their Be contents. Li has a disturbing influence on this relationship, and the versus Na correlation is also statistically worse than versus Be.Deceased December 20, 1984 相似文献
4.
R. Kerrich W. S. Fyfe R. L. Barnett B. B. Blair L. M. Willmore 《Contributions to Mineralogy and Petrology》1987,95(4):481-498
Monomineralic domains of chlorite, corundum and Cr muscovite coexist over a kilometer scale within ultramafic schists of the Harare greenstone belt (2.73 Ga). This exotic lithological association includes the conjunction of some of the most aluminous (Al2O388 wt%) and potassic (K2O10 wt%) rocks known. The paragenetic sequence developed from chloritecorundumcorundum+ diaspore: Cr muscovite variably overprinted both the corundum and chloritite domains. Terminal stages were marked by sporadic production of andalusite+quartz, and finally margarite.Chlorite (Cr2O3=0.31–2.65 wt%), corundum (0.79–2.66 wt%), and diaspore are all Cr-rich varieties. The chromian (Cr2O33.86 wt%) paragonitic muscovite incorporates up to 17% of the paragonite molecule, and significant Mg and Fe substitutions.The suite of rocks are characterized by chondritic Ti/Zr ratios (–x=107), systematically enhanced Cr (up to 14000 ppm) and Ni (up to 1200 ppm) abundances, low levels of the alteration-insensitive incompatible elements Th, Ta, Nb. Chlorite, corundum and Cr muscovite represent progressive stages in the incremental metasomatic alteration of a komatiite precursor. Mass balance calculations, constrained by the isochemical behaviour of Ti, Zr and Hf reveal that the komatiite chloritite transformation involved volumetric contractions of 60% by hydrothermal leaching of Si, Fe, Mn, Ca and Na. Reaction of chloritite to corundum involved further volumetric reductions of 50% due to essentially quantitative loss of Si, Fe, Mn, Mg, K and Ca. Conversion of corundum to muscovite required additions of Si, K, Fe, Mn, Mg, Rb and Ba at 50–200% dilation. K, Rb, Ba, Li and Cs are enriched by up to 2×103 over background abundances in ultramafic rocks, and the suite is also enriched in B, Se, Te, Bi, As, Sb and Au. REE were extensively leached during chloritite-corundum stages, whereas LREE additions accompany development of muscovite. Ti, Zr, Hf and Al were all concentrated by selective leaching of mobile components, but absolute additions of Al accompanied development of the corundum domains due to Al precipitation in response to depressurization.Corundum (
18O=3.5–4.8), muscovite (
18O=6.7–7.5) and chlorite (4.5–5.6) are isotopically uniform and formed at 380–520° C from a fluid where
18O=5.6–6.9. The corundum is 18O depleted relative to either igneous or anatectic counterparts (Ocor=7.6–8.2), or to gibbsitic laterites (
18O=12–17).Previous genetic schemes involving metamorphism of exhalites or bauxite, or Si-undersaturation of magmas, can all be ruled out from the data. The chloritite, corundum, Cr-muscovite association represents sequential alteration products of ultramafic rocks by high temperature, low pH hydrothermal solutions carrying LIL-elements, and in which excursions of pH and/or degree of quartz undersaturation account for the mineralogical transitions. A deep level acid epithermal system, or fluid advection across steep inverted thermal gradients in a thrust regime could account for required hydrothermal conditions. 相似文献
5.
Yuch-Ning Shieh Henry P. Schwarcz Denis M. Shaw 《Contributions to Mineralogy and Petrology》1976,54(1):1-16
The Loon Lake pluton in the Grenville province of Southeastern Ontario consists of a quartz monzonite rim surrounding a monzonite core containing inclusions of gneiss, gabbro and diorite. The pluton was emplaced in amphibolite facies Apsley gneiss, amphibolite and marble. Abnormally high 18O values are observed in all igneous rock types: quartz monzonite (8.9–13.9), monzonite (8.9–9.7), diorite-gabbro (8.0–9.3). High 18O contents are attributable to interaction between pluton and country rocks, through either isotopic exchange or direct mixing of mobilizate anatectically produced in the contact aureole of the pluton.The Apsley gneiss displays a 18O range from 8.3 to 16.9. There is no difference in 18O distribution between rocks inside and outside the contact aureole, although intermineral isotopic fractionations in the aureole are smaller than those outside. A chemical composition discriminant function that distinguishes rocks of igneous origin (DF>0) from sedimentary (DF<0) is inversely correlated with 18O of the gneisses, indicating that low 18O values are inherited from a silicic volcanic protolith. Al2O3/Na2O, an index of maturity of sediments, increases with 18O for the DF<0 group but is almost constant for the DF>0 group over a 18O range from 8.3 to 13.4. The DF<0 group is inferred to have formed from a series of clastic sediments of varying degree of weathering or maturity; the DF>0 group formed either from tuffs partially altered to zeolites, or from hydrated volcanic flows or ignimbrites. 相似文献
6.
Summary The possibility of applying X-ray single crystal techniques to minerals pertaining to rocks experimentally crystallized in laboratory has been investigated as a new approach to precisely relate crystal-chemistry to pressure, temperature, fO2, and composition of the magma from which the crystal formed.A clinopyroxene from the experimental lunar basalt (74275 composition) ofGreen et al. (1975) crystallized at 12 Kb and 1320 °C, was successfully refined to an R factor of 0.041. Its structure configuration turned out to be exceptional, expecially in relation to the record low Ca(M2) occupancy (0.57 atoms per formula unit henceforth a.f.u.), but comparable with the other lunar C2/c clinopyroxene previously studied with X-ray single crystal methodology: augite 12052 (Takeda 1972 a). Comparative analysis of the two lunar clinopyroxene structures revealed their common high temperature origin and the high-pressure imprint of the experimental specimen relative to the natural one.Both lunar samples differ radically from the studied terrestrial clinopyroxenes of C2/c diopside-like structure: the main difference of lunar clinopyroxenes with respect to terrestrial analogues is the high Ally (T) (AlIV > 0.20 a.f.u.) in spite of low Ca(M2). Relative to the ideal diopside structure, Si4+ AlIV and Ca Mg + Fe2+ substitutions in T and M2 sites, respectively, turned out to be not compatible with terrestrial clinopyroxenes.
With 4 Figures 相似文献
Kristallographische methoden zur untersuchung experimenteller gesteine: struktur verfeinerung von C2/c klinopyroxen aus dem experimentellen hochdruck mond-basalt 74275
Zusammenfassung Die Anwendung von Einkristallverfahren auf Minerale aus experimentell hergestellten Gesteinen wurde untersucht; sie wird als ein neuer Weg zur quantitativen Korrelation der Kristallchemie mit Druck, Temperatur, fO2 und der Zusammensetzung des Magmas, aus dem der Kristall gebildet wurde, gesehen.Die Struktur eines Klinopyroxens aus dem experimentellen Mond-Basalt (Zusammensetzung 74275) vonGreen et al. (1975), der bei 1320 °C kristallisierte, wurde mit Erfolg bis auf einen R-Faktor von 0.041 verfeinert. Es zeigte sich, daß seine Struktur-Konfiguration außergewöhnlich war, besonders im Hinblick auf die besonders niedrige Ca(M2) Besetzungsdichte (0.57 Atome pro Formeleinheit). Sie ist jedoch vergleichbar mit dem anderen lunaren C2/c Klinopyroxen der bisher mit Röntgen-Einkristallverfahren untersucht wurde, nämlich Augit 12052) (Takeda, 1972a). Vergleichsanalysen der beiden lunaren Klinopyroxen-Strukturen lassen ihre gemeinsame Hochtemperatur-Entstehung erkennen, sowie den — im Gegensatz zu der natürlichen Probe — deutlichen Einfluß hoher Drucke auf die experimentell hergestellte Probe.Beide lunare Proben unterscheiden sich deutlich von den untersuchten terrestrischen Klinopyroxenen mit Diopsid-artiger C2/c Struktur: der Hauptunterschied zwischen lunaren Klinopyroxenen und ihren terrestrischen Analogen ist der hohe AlIV (T) (AlIV > 0.20 a.f.u.) trotz niedrigem Ca(M2). Im Vergleich mit der idealen Diopsidstruktur zeigte sich daß, Si4+ AlIV und Ca Mg + Fe2+ Substitutionen an T resp. M2 Plätzen nicht kompatibel mit terrestrischen Klinopyroxenen sind.
With 4 Figures 相似文献
7.
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
1–U
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
1 –U
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, (y –y
0)/b
-
compressible boundary layer momentum thickness
-
viscosity
-
density
-
standard deviation
-
dimensionless velocity, (U –U
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
8.
Dr. A. Blasi 《Mineralogy and Petrology》1978,25(1):47-56
Summary As suggested bySmith (1968) and supported by most structural data published since, in alkali feldspar the ** plot can be used for estimating (**), i. e. the difference in Al confent between 0 andm subsites. The present study investigates the topologically identical plot on the basis of the configuration of the alkali feldspar tetrahedral framework. Changes in Al content ofT-sites are functionally related to changes in cosines of and . While the total Al causing changes in cos is directly equal to the difference in Al content between 0 andm subsites, the total Al causing changes in cos is expressed by a complicated function which is equal with a very good approximation to three fourths of the difference in Al content betweenm and 0 subsites. This relation of quasiproportionality. like the feasible substitution in alkali feldspar of the diagram cos vs. cos by the plot, represents two simplifying assumptions which permit the difference in Al content to be calculated, as previously predicted.
Strukturelle Deutung für (**) aus dem */* der Alkalifeldspäte
Zusammenfassung Nach einem Vorschlag vonSmith (1968) und in Übereinstimmung mit den meisten seither publizierten Strukturdaten kann man in Alkalifeldspäten das */* zur Abschätzung von (**), also des Unterschiedes im Al-Gehalt auf der 0- undm-Position benützen. Die vorliegende Arbeit untersucht das topologisch idente /-Diagramm auf der Basis der Gestalt des Tetraederverbandes der Alkalifeldspäte. änderungen im Al-Gehalt derT-Position sind mit Änderungen im Kosinus von und korreliert. Während der die cos -änderungen verursachende Al-Gesamtgehalt unmittelbar dem Unterschied im Al-Gehalt derO-undm-Position entspricht, ist der die cos -Änderungen verursachende Al-Gesamtgehalt durch eine komplizierte Funktion ausgedrückt, die aber mit sehr guter Näherung drei Vierteln der Differenz im Al-Gehalt auf denm-und 0-Poisitionen entspricht. Diese quasi-Proportionalität und die Ersetzbarkeit des cos /cos -Diagrammes durch das /-Diagramm bei den Alkalifeldspäten stellen zwei Vereinfachungen bei der Berechnung des Al-Gehaltes dar.相似文献
9.
R. Klemd A. M. van den Kerkhof E. E. Horn 《Contributions to Mineralogy and Petrology》1992,111(3):409-419
The eclogite-facies metasedimentary rocks in the Münchberg gneiss complex (T=630±30° C/P17–24 kbar) locally contain CO2–N2-rich fluid inclusions of extremely low molar volumes (32 cm3/mol) in quartz. These fluid compositions are mainly found in rocks intercalated with calcsilicate bands. Densities were determined from low-temperature phase transitions like stable or metastable homogenization (L+VL), partial homogenization (S+L+VS+L) and the transition S+LL (L = liquid, V = vapour, S = solid). The high fluid densities are in agreement with eclogite-facies pressure and temperature and subsequent amphibolite facies. CO2–N2 inclusions were not observed in adjacent eclogites nor in non-calcareous metasediments. These rock types contain predominantly H2O-rich inclusions correlating with amphibolite-facies conditions. The variation of fluid composition with lithological differences indicates local fluid gradients and speaks against a pervasive fluid flow during eclogite-facies metamorphism. 相似文献
10.
Prof. Dr. Rudolf Mosebach 《Contributions to Mineralogy and Petrology》1949,2(1-2):172-175
Zusammenfussung Ein einfaches Verfahren zur genauen Bestimmung kleiner optischer Gangunterschiede zwischen 0 und /2 bzw. 1 Na-Licht (oder auch underer Wellenlängen zwischenC- undF-Linie) durch Kompensation auf einen Restgangunterschied
r
= 1 und 2 anstatt 0 wird beschrieben und an einigen Beispielen geprüft. 相似文献
11.
In the Aritayn Volcaniclastic Formation, the formation of zeolites is associated with the transformation of sideromelane into palagonite by reaction with percolating water in an open hydrological system. Three vertical zones are described, characterised by fresh sideromelane at the top (zone 1), palagonite-smectite in the middle (zone 2), and zeolites at the bottom (zone 3). Within zone 3, a phillipsite-chabazite sub-zone overlies a faujasite — phillipsite sub-zone. The paragenetic sequence (fresh sideromelane palagonite smectites (saponite montmorillonite) faujasite phillipsite chabazite natrolite calcite) resembles those described in the literature, except for the early formation of smectites in the Jordanian occurrences. Faujasite is more abundant in these zeolitic tuffs than at any other locality in the world that has yet been described, and the tuffs are considered to have excellent potential for beneficiation. 相似文献
12.
Summary Clinopyroxene phenocrysts in six samples, representing the compositional range in the alkaline rocks of the region, range overall from aluminian titanian diopside (mg = Mg/[Mg + Fe
t
] = 92) to aegirine (mg = 17), but Ca-pyroxenes are dominant (90% of 851 analyses), Ca-Na pyroxenes minor ( 10%) and Na-pyroxenes rare ( 1%). Pyroxenes in associated subalkaline rocks (dolerites and basalts) are lower-Ca augites of distinct trend. Al and Ti correlate positively in the alkaline rock pyroxenes, but negatively with Si, mirroring decreasing CaTiAl2O6 and CaSiAl2O6 components in more felsic host-rocks. Although the most evolved pyroxenes in each host-rock show increasingna (Na/[Na + Ca]) and Zr and decreasingmg as host-rock mg decreases, the most primitive pyroxenes in each host-rock do not change, implying they are not at equilibrium. Over 40 paired logitudinal and lateral traverses across 21 phenocrysts reveal very complex zoning, in which up to five growth zones can be recognized in one crystal, separated by either sharp contacts or gradual transitions. These individual zones may show one of seven zoning trends:normal (na asmg moving outwards towards the rim),reverse (na asmg ),inverse (na asmg ),converse (na asmg ),unzoned (no change),symmetric (na andmg display complementary and trends), oroscillatory (superimposed on normal, reverse or unzoned). Ten distinct crystal types can also be recognized, showing particular sequences of zoning trends: for example, Type 1 shows a green, relatively sodic core surrounded by a more primitive rim or overgrowth, and has similar longitudinal and lateral zoning; whereas Type 6 shows extremely erratic variations which differ longitudinally and laterally. Up to four of these types were found in one host-rock, with little pattern in their distribution between different host-rocks. These pyroxenes are believed to record an intricate history of stop-start differentiation, complicated by magma-mixing, entry or disappearance of coprecipitating phases, and inheritance of high-pressure precipitates. Apparently random superimposed variations of Al, Ti and Si within some individual growth zones most probably reflect kinetic (disequilibrium) effects, due to rapid growth and/or supercooling.
Deceased
With 11 Figures 相似文献
Alkaligesteine und Karbonatite von Amba Dongar und Umgebung Deccan Alkali-Provinz, Gujarat, Indien. 2. Komplex zonierte Klinopyroxenkristalle
Zusammenfassung Klinopyroxenkristalle in sechs Proben, die das ganze Spektrum der Zusammensetzung der Alkaligesteine des Gebietes repräsentieren, schwanken von Aluminium-Titandiopsid (mg = Mg/[Mg + Fe t ] = 92) bis Aegirin (mg = 17), aber C-Pyroxene dominieren (90% von 851 Analysen). Ca-Na-Pyroxene sind Nebengemengteile (10%) und Na-Pyroxene sind selten ( 1%). Pyroxene in assoziierten subalkalischen Gesteinen (Dolerite und Basalte) sind Ca-arme Augite eines eigenständigen Trendes. Al und Ti korrelieren positiv in den Pyroxenen der Alkaligesteine, aber negativ mit Si, und dies spiegelt abnehmende CaTiAl2O6 und CaSiAl2O6 Komponenten in den mehr felsischen Wirtsgesteinen wider. Obwohl Pyroxene in jedem Wirtsgestein zunehmende na-Werte (Na/[Na + Ca]) und Zr-Gehalte und mit demmg des Wirtsgesteines auch abnehmendemg-Werte zeigen, lassen die primitivsten Pyroxene in jedem Wirtsgestein keine Änderung erkennen. Dies weist darauf hin, daß sie nicht im Gleichgewicht sind. Über vierzig paarweise angelegte Längs- und Quertraversen über 21 Kristalle zeigen sehr komplexen Zonarbau, in dem bis zu fünf Wachstumszonen in einem Kristall erkannt werden können, die entweder von scharfen Kontakten oder von graduellen Übergangszonen getrennt werden. Diese individuellen Zonen können einen der folgenden sieben Trends erkennen lassen: Normal (na ;mg ; von innen gegen den Rand zu), reverse (na ,mg ), invers (na undmg ), konvers (na ,mg ), unzoniert (keine Änderung), symmetrisch (na undmg zeigen komplementäre und Trends), oder oszillierend (überlagert den normalen, reversen oder unzonierten Trend). Weiters können zehn definierte Kristalltypen erkannt werden, die besondere Abfolgen von Trends der Zonierung erkennen lassen. Zum Beispiel zeigt Typ 1 einen grünen, relativ Na-reichen Kern, umgeben von einem mehr primitiven Rand oder Überwachsungen, wobei die Zonierung in Längs- und Querrichtung ähnlich ist. Demgegenüber zeigt Typ 6 außerordentlich unregelmäßige Zonierungen, die in Längs- und Querschnitten verschieden sind. Bis zu vier dieser Typen wurden in einem Wirtsgestein nachgewiesen, und sie ließen keine deutlichen Verteilungsmuster zwischen verschiedenen Wirtsgesteinen erkennen. Es wird angenommen, daß diese Pyroxene eine komplexe geschichte von stop-start Differentiation wiedergeben, die durch Magmamischung, durch die Zufuhr oder das Verschwinden von gleichzeitig ausfallenden Phasen und durch die Übernahme von Hochdruck-Bildungen weiter kompliziert wird. Unregelmäßig überlagerte Variationen von Al, Ti und Si innerhalb einzelner Wachstumszonen reflektieren sehr wahrscheinlich kinetische (Ungleichgewicht) Effekte, die auf sehr rasches Wachstum und/oder Überkühlung zurückgehen.
Deceased
With 11 Figures 相似文献
13.
Dr. Winfried Zimmerle 《International Journal of Earth Sciences》1973,62(2):536-548
Zusammenfassung Fossile Schwermineralanreicherungen (Seifen), die wirtschaftlich nicht nutzbar sind, treten gelegentlich in Sandsteinen und Konglomeraten auf. Die Konfiguration, die Mineralzusammensetzung und der vermutete Ablagerungsraum von sechs Schwermineralanreicherungen aus Westdeutschland, die ein unterschiedliches stratigraphisches Alter (Unterdevon, Oberdevon, Rotliegendes, RhÄt, Dogger und OligozÄn) haben, werden beschrieben und illustriert. Die Bildungsbedingungen von Seifen im allgemeinen sind kurz erwÄhnt. Radiographien werden als methodisches Hilfsmittel zur Untersuchung von Seifen demonstriert.Die geographische und stratigraphische Verteilung — vom PrÄkambrium bis zum QuartÄr — von bekannten, wirtschaftlich nutzbaren und nicht nutzbaren Anreicherungen ist tabellarisch zusammengefa\t. Ferner werden Schwermineralanreicherungen nach der Art des Ablagerungsraums klassifiziert. Abschlie\end werden aus diesen Beobachtungen über fossile Seifen Folgerungen auf die physiographische Verteilung rezenter Seifen gezogen.
This paper was presented at the VIII International Sedimentological Congress 1971, Heidelberg. 相似文献
Noneconomic fossil heavy mineral concentrations (streaks) are a conspicuous feature in some sandstones and conglomerates. Configuration, mineral composition, and presumable environment of deposition of such concentrations are described based on six examples of varying stratigraphic age from West Germany. Conditions of placer formation are briefly mentioned. Radiographs are demonstrated as an auxiliary tool to studying placers.Geographic and stratigraphic distribution (from Precambrian to Quaternary) of known noneconomic and economic accumulations are tabulated. A tentative classification of heavy mineral concentrations as to their depositional environment is presented. As a result of these observations on ancient placers, conclusions can be drawn regarding the physiographic distribution of Recent placers.
Résumé Des enrichissements fossiles de minéraux lourds (placers), sans valeur commerciale, peuvent Être observés occasionnellement dans des grès et des conglomérats. L'auteur décrit et illustre la configuration, la composition minéralogique et l'aire de sédimentation présumée de six concentrations de minéraux lourds, d'âges stratigraphiques différents (Dévonien inférieur, Dévonien supérieur, Rotliegend, Rhétien, Dogger et Oligocène), tous en République Fédérale Allemande. Les conditions générales de genèse des placers sont brièvement mentionnées. La radiographie se montre comme une méthode auxiliaire dans la recherche des placers.La distribution géographique et stratigraphique — du Précambrien au Quaternaire — des placers commerciaux et non-commerciaux connus est résumée dans un tableau. Les placers sont ensuite classifiés selon le milieu de sédimentation. A partir de ces observations sur les placers fossiles, on peut tirer quelques conclusions sur la distribution physiographique des placers récents.
— —, , . , , . . , . , , , . .
This paper was presented at the VIII International Sedimentological Congress 1971, Heidelberg. 相似文献
14.
Partition of Fe2+ and Mg between coexisting (Mg, Fe)2SiO4 spinel and (Mg, Fe)SiO3 pyroxene was investigated at pressures 80 and 90 kbar and at temperatures 840 and 1050° C, using tetrahedral-anvil type of high pressure apparatus. Olivine-spinel solid solution equilibria in the system Mg2SiO4-Fe2SiO4 were discussed in the light of the partition reaction. Partition of Fe2+ and Mg in both olivine-spinel and pyroxene-spinel systems can not be regarded as that between ideal solid solutions. By applying the simple solution model for the partition of Fe2+ and Mg, sign of the heat of mixing was estimated to be positive for all olivine, spinel and pyroxene. Relative concentration of Fe2+ in spinel in the pyroxene-spinel system is likely to cause some change in the chemical composition of modified spinel () or spinel () in the transition zone of the mantle. A considerable change is also expected in the transition pressure of to ( + ) and ( + ) to .Presented at the symposium Recent Advances in the Studies of Rocks and Minerals at High Pressures and Temperatures held in Montreal, 1972. Jointly sponsored by the International Mineralogical Association and the Commission on Experimental Petrology. 相似文献
15.
Takehiro Koyaguchi 《Contributions to Mineralogy and Petrology》1990,105(2):173-176
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
16.
Mag. G. Giester 《Mineralogy and Petrology》1988,38(4):277-284
Summary The crystal structures of hydrothermally grown CuSO4 · H2O and CuSeO4 · H2O were determined by single crystal X-ray methods [Space group
,a = 5.037 (1), 5.129 (1) Å,b = 5.170(1), 5.527(1)Å,c = 7.578(2), 7.469(2)Å, = 108.62(1), 103.98(1)°, = 108.39(1), 106.52(1)°, = 90.93(1), 97.19(1)°; Z = 2; Rw = 0.026, 0.030 for 2065, 2235 reflections with sin / 0.90 Å–1]. The Cu atoms are [4 + 2]-coordinated to O atoms. These elongated octahedra are corner connected via the H2O molecule to form chains. The formal units
1
[Cu2O8(H2O)2]12- are interconnected by [XO4]2- groups (X=S,Se) and hydrogen bonds (bond lengths 2.72–2.83 Å). The crystal structures show pseudomonoclinic symmetry and are strongly related to the structure type of kieserite.[/p]
With 1 Figure 相似文献
Die Kristallstrukturen von CuSO4 · H2O und CuSeO4 · H2O und ihre Beziehungen zum Kieserit
Zusammenfassung Die Kristallstrukturen von hydrothermal gezüchtetem CUSO4 · H2O und CuSeO4. H2O wurden an Einkristallen mittels Röntgenbeugung bestimmt [Raumgruppe ;a = 5.037(1), 5.129(1)Å,b = 5.170(1), 5.527(1)Å,c = 7.578(2), 7.469 (2) Å, = 108.62(1), 103.98(1)°, = 108.39(1), 106.52(1)°, = 90.93(1), 97.19(1)°; Z = 2; RW = 0.026, 0.030 für 2065, 2235 Reflexe mit sin / 0.90)Å–1]. Die Cu-Atome werden durch O-Atome [4+2]-koordiniert. Diese gestreckten /lOktaeder sind miteinander über Ecken durch die H2O-Moleküle zu Ketten verknüpft. Die formalen Einheiten 1 [CU2O8(H2O)2]12– werden durch [XO4]2–-Gruppen (X = S, Se) und Wasserstoffbrücken (Bindungslängen 2.72–2.83Å) miteinander verbunden. Die Kristallstrukturen zeigen pseudomonokline Symmetrie und sind sehr nahe mit dem Strukturtyp des Kieserits verwandt.
With 1 Figure 相似文献
17.
Lavrushin V. Yu. Kopf A. Deyhle A. Stepanets M. I. 《Lithology and Mineral Resources》2003,38(2):120-153
Temperatures of the formation of mud-volcanic waters are determined based on concentrations of some temperature-dependent components (Na–Li, Mg–Li). Estimates obtained for the Taman and Kakhetia regions are similar and range from 45 to 170°, which correspond to depths of 1–4.5 km. The calculated temperatures correlate with the chemical (Li, Rb, Cs, Sr, Ba, B, I, and HCO3) composition of water and 13 (2) and 13 (CH4) values in spontaneous gases. The isotope values indicate that mechanisms of the formation of 13-rich gases, i.e., gases with high 13 values (up to +16.0 in 2 and –23.4 in CH4) in mud-volcanic systems of Taman and Kakhetia are governed by fluid-generation temperatures rather than the supply of abyssal gases. The 11 value was determined for the first time in mud-volcanic products of the Caucasus region. This value ranges from +22.5 to +39.4 in the volcanic water of Georgia, from –1.2 to +7.4 in the clayey pulp of Georgia, and from –7.6 to +13.2 in the clayey pulp of Taman. It is shown that the 11 value in clay correlates with the fluid-generation temperature and 11 correlates with 13 in carbon-bearing gases. These correlations probably testify to the formation of different phases of mud-volcanic emanations in a single geochemical system and suggest the crucial role of temperature in the development of isotope-geochemical features. 相似文献
18.
Michail N. Taran Monika Koch-Müller Klaus Langer 《Physics and Chemistry of Minerals》2005,32(3):175-188
Natural Fe2+, Fe3+-bearing spinel solid solutions from the spinel s.s.-hercynite and gahnite-hercynite series were analyzed and studied by electronic absorption spectroscopy in the spectral range 30000–3500 cm–1 in the temperature and pressure ranges 77 TK 600 and 10–4 PGPa 11.0. Two crystals were light-violet in color (type I) and six green or bluish-green (type II). The spectra of both types of spinels are dominated by an UV-absorption edge near 28000 to 24000 cm–1, depending on the iron contents, and a very intense band system in the NIR centered around 5000 cm–1, which is caused by spin-allowed dd-transition of tetrahedral Fe2+, derived from 5 E5 T2. The strong band is in all spinels studied, split into four sub-bands, which can only be observed in very thin platelets. Between the UV-edge and the high-energy wing of the NIR-band there occur a number of very weak bands in type I spinels while the green type II spinels show some of these with significantly enhanced intensity. The intensity of the very weak bands is nearly independent from temperature. Such bands are attributed to spin-forbidden electronic transitions of IVFe2+. Temperature and pressure dependence of the intensity enhanced bands of spinels type II indicate that they are caused by IVFe2+ and VIFe3+. They are attributed to spin-forbidden transitions 6A1g4A1g, 4Eg, 4T2g and 4T1g of VIFe3+, the two latter being strongly intensified by exchange-coupling interaction with adjacent IVFe2+. The pressure dependence of IVFe2+ dd-band system in the NIR caused by spin-allowed 5 E5 T2 transition noticeably differs from that of octahedral Fe2+, an effect which is attributed to a dynamic Jahn-Teller effect of IVFe2+ in the spinel structure.
相似文献
| Monika Koch-MüllerEmail: Phone: +49-331-288-1492/1402Fax: +49-331-288-1492/1402 |
19.
Prof. Dr. Paul Michot Sr. 《International Journal of Earth Sciences》1965,54(2):956-976
Résumé L'auteur, évoquant les caractères chimico-minéralogiques des magmas basiques, fait la distinction entre la branche ferromagnésienne, dont le type le plus représentatif est le magma tholéiitique, et la branche plagioclasique dont l'existence est à démontrer. Il qualifie de plagioclasique le magma dont la composition chimique entraîne la cristallisation première d'un plagioclase. L'existence d'un tel magma est démontrée par le massif éruptif du Rogaland méridional (SW de la Norvège) et avant tout par une de ses intrusions majeures, le massif de Bjerkrem-Sogndal. Celui-ci montre de façon évidente une lignée de différenciats par gravité, comprenant à la base une anorthosite, ensuite des leuconorites, des norites et des monzonorites passant finalement à des termes plus acides, des mangérites et mangérites quartziques. — Cette succession permet d'établir le caractère plagioclasique du magma qui a fourni les intrusions constituant le massif éruptif du Rogaland, en particulier la plus ancienne, le massif anorthositique d'Egersund-Ogna, qui est une accumulite plagioclasique. — Le magma plagioclasique serait le résultat d'une fusion syntectique entre un magma basaltique normal et des matériaux de composition pélitique ou pélitoarkosique; cette assimilation serait réalisée dans la catazone profonde à l'intervention d'un orogène catazonal. Les produits formés par différenciation gravitative donnent entr'autres de grands massifs anorthositiques homogènes, ou tréfonds anorthositiques, ancrés dans la partie inférieure de l'orogène. Le géosynclinal d'où celuici provient serait établi directement sur la croûte basaltique océanique. Le segment orogénique qui en dérive marquerait donc l'accroissement latéral du domaine continental aux dépens du domaine océanique et serait donc un orogène fondamental.
Herrn Prof. Dr. Dr. h. c.Erich Bederke zum 70. Geburtstag gewidmet. 相似文献
Starting from the physico-chemical character of the basic magmas the author distinguishes between a ferromagnesian branch, the most representative type of which is the tholeiitic magma, and the plagioclasic branch whose existence he will now establish. — He defines as plagioclasic a magma whose chemical composition has as a direct consequence the first crystallisation of a plagioclase. The existence of that magmatic type is displayed by the eruptive massive of South Rogaland (SW Norway), and above all by one of its major intrusions, the Bjerkrem-Sokndal massive. The latter shows evidence of a differentiated rock succession resulting from a gravitative action: the lowest layer is an anorthosite overlaid successively by leuconorites, norites, monzonorites and finally by more alcalic and acidic types, mangerites and quartzmangerites. This succession establishes the plagioclasic character of the whole magma which produced the different major intrusions of the eruptive massive of South Rogaland, and in particular the oldest one, i. e. the Egersund-Ogna anorthosite massive interpreted as a plagioclasic accumulite. The plagioclasic magma would be the result of a syntectic fusion between a normal basaltic magma and pelitic and/or arkosic sediments. Such an important assimilation would then appear to have taken place in the deep catazone during the constitution of a catazonal orogenetic segment. The great anorthosite massive, whose main characteristic is its great homogeneity, is an essential and early differentiated product, which has intruted into the lowest part of the tectonic system, which is the reason why we call it anorthositic undermost basement body (tréfonds anorthositique). — The site of the geosyncline from which such an orogenetic segment issued would then have been directly superposed on the basaltic oceanic crust. This type of orogenetic segment would therefore indicate a lateral growth of the continent at the cost of the oceanic area: it is a foundation orogen (orogène fondamental).
Zusammenfassung Die chemisch-mineralogischen Eigenschaften der basischen Magmen werden erläutert. Es wird zwischen einer femischen Sippe, deren typischer Vertreter das tholeiitische Magma ist, und dem Plagioklasmagma unterschieden, wobei die Existenz des letzteren in dieser Arbeit bewiesen werden soll. Als plagioklasisch wird vom Verfasser ein Magma bezeichnet, dessen chemische Zusammensetzung die Erstkristallisation von Plagioklas hervorruft. Die Existenz eines solchen Magmas wird durch die Verhältnisse im Eruptivgebiet des südlichen Rogaland (Südwestnorwegen) und vor allem durch eine seiner Intrusionen erster Ordnung, das Bjerkrem-Sokndal-Massiv, bewiesen. Dieses letztere zeigt einwandfrei eine Reihe von durch die Schwere erzeugter Differentiate, die von unten nach oben aus einem Anorthosit, darüber aus Leukonoriten, Noriten und Monzonoriten besteht und zu saureren Gesteinen wie Mangeriten und Quarzmangeriten übergeht. Diese geometrische Reihe erlaubt es, den plagioklasischen Charakter des Magmas festzustellen, das die Intrusionen des Rogalandschen Eruptivmassives abgegeben hat. Das betrifft vor allem auch seine älteste Einheit, das anorthositische Massiv von Egersund-Ogna, das ein plagioklasisches Akkumulat darstellt.Vom Verfasser wird das Plagioklasmagma als eine syntektische Verschmelzung eines normalen basaltischen Magmas mit pelitischen bis pelitoarkosischen Gesteinen betrachtet. Diese Assimilation soll in der tiefen Katazone in Zusammenhang mit der Bildung eines katazonalen Orogens erfolgt sein. Die durch gravitative Differentiation erzeugten Produkte bilden die großen einheitlichen anorthositischen Massive, die sogenannten tréfonds anorthositiques. Diese dringen in den untersten Teil des Orogens ein. Die ursprüngliche Geosynklinale muß sich unmittelbar auf der basaltischen Kruste aufbauen. Das daraus entstandene orogenetische Segment stellt damit das laterale Zuwachsen des Kontinents auf Kosten der ozeanischen Gebiete dar und muß daher als ein Grundorogen (orogène fondamental) bezeichnet werden.
, . , - () . , , . .
Herrn Prof. Dr. Dr. h. c.Erich Bederke zum 70. Geburtstag gewidmet. 相似文献
20.
Dr. Dora Bedlivy Dr. E. J. Llambías Lic. J. F. H. Astarloa 《Mineralogy and Petrology》1972,17(2):65-75
Zusammenfassung Rooseveltit findet sich in der Oxidationszone der Lagerstätten San Francisco de los Andes und Cerro Negro de la Aguadita, in der Provinz San Juan, Argentinien, auf 30°22 S und 69°33 W. Er bildet sehr feinkörnige, weiß-graue, nach Bismuthinit pseudomorphe Aggregate. Die Brechungsindizes liegen zwischenn=2,10 und 2,30. Die Vickershärte beträgt 513 (4–5 der Mohs'schen Härteskala). Mittels Elektronenmikrosonde wurde folgende chemische Zusammensetzung bestimmt: As=21,5±1%, Bi=60,9±2%. Rooseveltit ist monoklin mita
0=6,878(1)Å, b0=7,163(1) Å, c0=6,735(1) Å, =104° 46±1, Z=4, calc.=6,94 g·cm–3, RaumgruppeP 21/n.Rooseveltit wurde nach drei verschiedenen Methoden synthetisiert. Die Pulverdiagramme der synthetischen Produkte stimmen mit dem des Minerals überein. Die Brechungsindizes wurden mitn
=2,13(2) bzw. n=2,25(2) und die Dichte mit obs.=7,01 g·cm–3 bestimmt. Zellparameter: a0-6,882(1) Å, b0=7,164(1) Å, c0=6,734(1) Å, =104° 50,5±0,7, calc.=6,94 g·cm–3. Das synthetische Material schmilzt um 950°C. Selbst nach mehrstündigem Erhitzen auf 920°C läßt sich keine Veränderung im Pulverdiagramm des Minerals festellen.Es wird versucht, die natürliche Bildung des Rooseveltits zu erklären.
Mit 2 Abbildungen 相似文献
Rooseveltite from San Francisco de los Andes and Cerro Negro de la Aguadita, San Juan, Argentina
Summary Rooseveltite occurs in the weathering zone of the San Francisco de los Andes and Cerro Negro de la Aguadita mines, located in the San Juan Province, Argentina, at 30° 22S and 69° 33W. It appears in grey, finegrained aggregates pseudomorph after bismuthinite. Refraction index ranges fromn=2.10 to 2.30. The Vickers microhardness is 513 (4–5 of Mohs' scale). Chemical composition from electron micro probe measurements is As 21.5±1% and Bi 60.9±2%. Rooseveltite is monoclinic, with a0=6.878(1) Å, b0=7.163(1) Å, c0=6.735(1) Å, =104° 46±1, Z=4, calc.=6,94 g·cm–3, space groupP 21/n.The synthetic compound was prepared by three different methods. The powder pattern are the same as that of the mineral. Refraction index n=2.13(2) and n=2.25(2). The measured specific gravity is pobs.=7,01 g·cm–3. Cell parameters: a0=6.882(1) Å, b0=7.164(1) Å,c 0=6.734(1) Å, =104° 50.5±0.7, calc.=6,94 g·cm–3. The synthetic material melts at about 950°C. After heating to 920°C no variations were observed in the powder diagram of the mineral.It is tried to explain the formation of rooseveltite in natural environment.
Mit 2 Abbildungen 相似文献