Compressibility and structure behaviour of maruyamaite (K-tourmaline) from the Kokchetav massif at high pressure up to 20 GPa

Compressibility and structure behaviour of maruyamaite (K-tourmaline) from the Kokchetav massif at high pressure up to 20 GPa

The structural behaviour of maruyamaite (K-dominant tourmaline) X (K 0.54 Na 0.28 Ca 0.19 ) Y (Mg 1.3 Al 1.17 Fe 0.39 Ti 0.14 ) Z (Al 5 Mg)[Si 5.95 Al 0.05 O 18 ](BO 3 ) 3 V,W [O 1.69 (OH) 2.31 ] from the ultrahigh-pressure metamorphic rocks of Kokchetav massif was studied using synchrotron based si...

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Bibliographic Details
Published in:Mineralogy and petrology Vol. 113; no. 5; pp. 613 - 623
Main Authors: Likhacheva, Anna Yu, Rashchenko, S. V., Musiyachenko, Kira A., Korsakov, Andrey V., Collings, Ines E., Hanfland, Michael
Format: Journal Article
Language:English
Published: Vienna Springer Vienna 01-10-2019
Springer Nature B.V
Subjects:
Bulk modulus
Cations
Compressibility
Compression
Direction
Earth and Environmental Science
Earth Sciences
Elasticity
Equations of state
Geochemistry
High pressure
Inorganic Chemistry
Massifs
Metamorphic rocks
Mineralogy
Original Paper
Phase transitions
Polyhedra
Pressure
Rigidity
Single crystals
Stabilizing
Tourmaline
Maruyamaite
K-tourmaline
Kokchetav Massif
northern Kazakhstan
UHP metamorphism
single-crystal diffraction
High pressure
crystal structure refinement
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Summary:The structural behaviour of maruyamaite (K-dominant tourmaline) X (K 0.54 Na 0.28 Ca 0.19 ) Y (Mg 1.3 Al 1.17 Fe 0.39 Ti 0.14 ) Z (Al 5 Mg)[Si 5.95 Al 0.05 O 18 ](BO 3 ) 3 V,W [O 1.69 (OH) 2.31 ] from the ultrahigh-pressure metamorphic rocks of Kokchetav massif was studied using synchrotron based single-crystal diffraction up to 20 GPa. Within the whole pressure range the compression is regular and anisotropic, with the c direction being more compressible than the a direction. Fitting the V/ P data with the 2nd and 3rd order Birch-Murnaghan equations of state gives: V 0  = 1587.2(7) Å 3 , K 0  = 115.6(9) GPa at fixed K′ = 4, and V 0  = 1588(1) Å 3 , K 0  = 112(3) GPa, K′ = 4.5(4). The bulk modulus values are slightly higher as compared to those found for dravite and cation-deficient synthetic K-dravite. The pressure evolution of the main structural parameters of K-tourmaline is similar to those of dravite. However, a minor change in the rigidity of local contacts of the X site with 6-membered ring, due to the presence of K, is apparently critical for stabilization of tourmaline structure within 15–20 GPa, which is evinced by the absence of the phase transition observed in dravite near 15.4 GPa. The stabilizing function of K becomes apparent at P  > 15 GPa. The comparison of the H P structural behaviour of maruyamaite and dravite supports the recent suggestion that the large X site plays a secondary role in the elastic behaviour of tourmaline, compared to the octahedral framework. In addition, the present study reveals several new features of polyhedra distortions, which demonstrate their complex interaction on compression.
ISSN:0930-0708
1438-1168
DOI:10.1007/s00710-019-00672-0