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Brearley, A. J. (1986) An electron optical study of muscovite breakdown in pelitic xenoliths during pyrometamorphism. Mineralogical Magazine, 50 (357) 385-397 doi:10.1180/minmag.1986.050.357.04

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Reference TypeJournal (article/letter/editorial)
TitleAn electron optical study of muscovite breakdown in pelitic xenoliths during pyrometamorphism
JournalMineralogical MagazineISSN0026-461X
AuthorsBrearley, A. J.Author
Year1986 (September)Volume50
Issue357
PublisherMineralogical Society
Download URLhttps://rruff.info/doclib/MinMag/Volume_50/50-357-385.pdf+
DOIdoi:10.1180/minmag.1986.050.357.04Search in ResearchGate
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Mindat Ref. ID3876Long-form Identifiermindat:1:5:3876:2
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Full ReferenceBrearley, A. J. (1986) An electron optical study of muscovite breakdown in pelitic xenoliths during pyrometamorphism. Mineralogical Magazine, 50 (357) 385-397 doi:10.1180/minmag.1986.050.357.04
Plain TextBrearley, A. J. (1986) An electron optical study of muscovite breakdown in pelitic xenoliths during pyrometamorphism. Mineralogical Magazine, 50 (357) 385-397 doi:10.1180/minmag.1986.050.357.04
In(1986, September) Mineralogical Magazine Vol. 50 (357) Mineralogical Society
Abstract/NotesAbstractTransmission electron microscopy and analytical electron microscopy have been used to study the breakdown reaction of muscovite during pyrometa-morphism. The transformation has been shown to be topotactic in nature, with the orientations of the product biotite and alkali feldspar being strongly controlled by the precursor phase. Microprobe investigations indicate that the reaction is probably isochemical with no detectable interaction with adjacent phases. Chemical analyses of the products carried out by AEM have enabled a possible balanced reaction to be calculated. It is proposed that the spatial distribution of the product minerals can be interpreted in terms of diffusion of species from one domain in the crystal to another over distances of 5 to 10 µm as a result of chemical potential gradients which develop during the reaction. The reaction probably occurred under conditions of declining temperature between 900 and 750 °C over a period of 4–5 days. This time period was insufficient to enable the reaction to reach completion as indicated by the presence of relics of muscovite coexisting with K-feldspar, corundum, biotite, hercynite, and mullite.

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Brearley, A.J. (1986) An electron optical study of muscovite breakdown in pelitic xenoliths during pyrometamorphism. Mineralogical Magazine: 50: 385-397.
Brearley, A. J., Champness, P. E. (1986) Magnetite exsolution in almandine garnet. Mineralogical Magazine, 50 (358) 621-633 doi:10.1180/minmag.1986.050.358.07
Brearley, Adrian J. (1988) Chloritoid from Low-Grade Pelitic Rocks in North Wales. Mineralogical Magazine, 52 (366) 394-396 doi:10.1180/minmag.1988.052.366.12
(1986) Mechanisms of Reaction Meeting and Workshop. Mineralogical Magazine, 50 (357) 357-358 doi:10.1180/minmag.1986.050.357.01
Joesten, R. (1986) Reply. Mineralogical Magazine, 50 (357) 474-479 doi:10.1180/minmag.1986.050.357.10
Ostwald, J. (1986) A Note on Chalcophanite Formation in a Recent Lake. Mineralogical Magazine, 50 (357) 538-541 doi:10.1180/minmag.1986.050.357.21
Kodama, H. (1977) An electron-diffraction study of a microcrystalline muscovite and its vermiculitized products. Mineralogical Magazine, 41 (320) 461-468 doi:10.1180/minmag.1977.041.320.06
Guggenheim, Stephen, Eggleton, Richard A. (1986) Cation exchange in ganophyllite. Mineralogical Magazine, 50 (357) 517-520 doi:10.1180/minmag.1986.050.357.15
Kimata, Mitsuyoshi (1986) Synthetic Mn-Kilchoanite—a new development in polymorphism of melilite. Mineralogical Magazine, 50 (357) 511-515 doi:10.1180/minmag.1986.050.357.14
Horak, J. M., Gibbons, W. (1986) Reclassification of blueschist amphiboles from Anglesey, North Wales. Mineralogical Magazine, 50 (357) 533-535 doi:10.1180/minmag.1986.050.357.18
(1986) Errata. Mineralogical Magazine, 50 (358) doi:10.1180/minmag.1986.050.358.30
 
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