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Uakitite, VN, a new mononitride mineral from uakit iron meteorite (IIAB). / Sharygin, Victor V.; Ripp, German S.; Yakovlev, Grigoriy A. и др.

в: Minerals, Том 10, № 2, 150, 02.2020.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Sharygin, VV, Ripp, GS, Yakovlev, GA, Seryotkin, YV, Karmanov, NS, Izbrodin, IA, Grokhovsky, VI & Khromova, EA 2020, 'Uakitite, VN, a new mononitride mineral from uakit iron meteorite (IIAB)', Minerals, Том. 10, № 2, 150. https://doi.org/10.3390/min10020150

APA

Sharygin, V. V., Ripp, G. S., Yakovlev, G. A., Seryotkin, Y. V., Karmanov, N. S., Izbrodin, I. A., Grokhovsky, V. I., & Khromova, E. A. (2020). Uakitite, VN, a new mononitride mineral from uakit iron meteorite (IIAB). Minerals, 10(2), [150]. https://doi.org/10.3390/min10020150

Vancouver

Sharygin VV, Ripp GS, Yakovlev GA, Seryotkin YV, Karmanov NS, Izbrodin IA и др. Uakitite, VN, a new mononitride mineral from uakit iron meteorite (IIAB). Minerals. 2020 февр.;10(2):150. doi: 10.3390/min10020150

Author

Sharygin, Victor V. ; Ripp, German S. ; Yakovlev, Grigoriy A. и др. / Uakitite, VN, a new mononitride mineral from uakit iron meteorite (IIAB). в: Minerals. 2020 ; Том 10, № 2.

BibTeX

@article{510d2f3987e2458b834d56e7d9725cb3,
title = "Uakitite, VN, a new mononitride mineral from uakit iron meteorite (IIAB)",
abstract = "Uakitite was observed in small troilite–daubr{\'e}elite (±schreibersite) inclusions (up to 100 µm) and in large troilite–daubr{\'e}elite nodules (up to 1 cm) in Fe-Ni-metal (kamacite) of the Uakit iron meteorite (IIAB), Republic of Buryatia, Russia. Such associations in the Uakit meteorite seemed to form due to high-temperature (>1000 °C) separation of Fe-Cr-rich sulfide liquid from Fe-metal melt. Most inclusions represent alternation of layers of troilite and daubr{\'e}elite, which may be a result of solid decay of an initial Fe-Cr-sulfide. These inclusions are partially resorbed and mainly located in fissures of the meteorite, which is now filled with magnetite, and rarely other secondary minerals. Phase relations indicate that uakitite is one of the early minerals in these associations. It forms isometric (cubic) crystals (in daubr{\'e}elite) or rounded grains (in schreibersite). The size of uakitite grains is usually less than 5 µm. It is associated with sulfides (daubr{\'e}elite, troilite, grokhovskyite), schreibersite and magnetite. Carlsbergite CrN, a more abundant nitride in the Uakit meteorite, was not found in any assemblages with uakitite. Physical and optical properties of uakitite are quite similar to synthetic VN: yellow and transparent phase with metallic luster; Mohs hardness: 9–10; light gray color with a pinky tint in reflected light; density (calc.) = 6.128 g/cm3. Uakitite is structurally related to the osbornite group minerals: carlsbergite CrN and osbornite TiN. Structural data were obtained for three uakitite crystals using the electron backscatter diffraction (EBSD) technique. Fitting of the EBSD patterns for a synthetic VN model (cubic, Fm-3m, a = 4.1328(3) {\AA}; V = 70.588(9) {\AA}3; Z = 4) resulted in the parameter MAD = 0.14–0.37° (best-good fit). Analytical data for uakitite (n = 54, in wt. %) are: V, 71.33; Cr, 5.58; Fe, 1.56; N, 21.41; Ti, below detection limit (<0.005). The empirical formula (V0.91Cr0.07Fe0.02)1.00N1.00 indicates that chromium incorporates in the structure according to the scheme V3+ → Cr3+ (up to 7 mol. % of the carlsbergite end-member).",
keywords = "Buryatia, Carlsbergite, Daubr{\'e}elite, IIAB iron, Osbornite group, Troilite, Uakit meteorite, Uakitite, ALLENDE METEORITE, CARLSBERGITE, CRYSTAL-STRUCTURE, METAL NITRIDES, osbornite group, STATE, uakitite, carlsbergite, SILICON-NITRIDE, PHASE, daubreelite, troilite, VANADIUM NITRIDE, THERMODYNAMIC ASSESSMENT, CRN",
author = "Sharygin, {Victor V.} and Ripp, {German S.} and Yakovlev, {Grigoriy A.} and Seryotkin, {Yurii V.} and Karmanov, {Nikolai S.} and Izbrodin, {Ivan A.} and Grokhovsky, {Victor I.} and Khromova, {Elena A.}",
note = "Publisher Copyright: {\textcopyright} 2020 by the authors. Licensee MDPI, Basel, Switzerland. Copyright: Copyright 2020 Elsevier B.V., All rights reserved.",
year = "2020",
month = feb,
doi = "10.3390/min10020150",
language = "English",
volume = "10",
journal = "Minerals",
issn = "2075-163X",
publisher = "MDPI AG",
number = "2",

}

RIS

TY - JOUR

T1 - Uakitite, VN, a new mononitride mineral from uakit iron meteorite (IIAB)

AU - Sharygin, Victor V.

AU - Ripp, German S.

AU - Yakovlev, Grigoriy A.

AU - Seryotkin, Yurii V.

AU - Karmanov, Nikolai S.

AU - Izbrodin, Ivan A.

AU - Grokhovsky, Victor I.

AU - Khromova, Elena A.

N1 - Publisher Copyright: © 2020 by the authors. Licensee MDPI, Basel, Switzerland. Copyright: Copyright 2020 Elsevier B.V., All rights reserved.

PY - 2020/2

Y1 - 2020/2

N2 - Uakitite was observed in small troilite–daubréelite (±schreibersite) inclusions (up to 100 µm) and in large troilite–daubréelite nodules (up to 1 cm) in Fe-Ni-metal (kamacite) of the Uakit iron meteorite (IIAB), Republic of Buryatia, Russia. Such associations in the Uakit meteorite seemed to form due to high-temperature (>1000 °C) separation of Fe-Cr-rich sulfide liquid from Fe-metal melt. Most inclusions represent alternation of layers of troilite and daubréelite, which may be a result of solid decay of an initial Fe-Cr-sulfide. These inclusions are partially resorbed and mainly located in fissures of the meteorite, which is now filled with magnetite, and rarely other secondary minerals. Phase relations indicate that uakitite is one of the early minerals in these associations. It forms isometric (cubic) crystals (in daubréelite) or rounded grains (in schreibersite). The size of uakitite grains is usually less than 5 µm. It is associated with sulfides (daubréelite, troilite, grokhovskyite), schreibersite and magnetite. Carlsbergite CrN, a more abundant nitride in the Uakit meteorite, was not found in any assemblages with uakitite. Physical and optical properties of uakitite are quite similar to synthetic VN: yellow and transparent phase with metallic luster; Mohs hardness: 9–10; light gray color with a pinky tint in reflected light; density (calc.) = 6.128 g/cm3. Uakitite is structurally related to the osbornite group minerals: carlsbergite CrN and osbornite TiN. Structural data were obtained for three uakitite crystals using the electron backscatter diffraction (EBSD) technique. Fitting of the EBSD patterns for a synthetic VN model (cubic, Fm-3m, a = 4.1328(3) Å; V = 70.588(9) Å3; Z = 4) resulted in the parameter MAD = 0.14–0.37° (best-good fit). Analytical data for uakitite (n = 54, in wt. %) are: V, 71.33; Cr, 5.58; Fe, 1.56; N, 21.41; Ti, below detection limit (<0.005). The empirical formula (V0.91Cr0.07Fe0.02)1.00N1.00 indicates that chromium incorporates in the structure according to the scheme V3+ → Cr3+ (up to 7 mol. % of the carlsbergite end-member).

AB - Uakitite was observed in small troilite–daubréelite (±schreibersite) inclusions (up to 100 µm) and in large troilite–daubréelite nodules (up to 1 cm) in Fe-Ni-metal (kamacite) of the Uakit iron meteorite (IIAB), Republic of Buryatia, Russia. Such associations in the Uakit meteorite seemed to form due to high-temperature (>1000 °C) separation of Fe-Cr-rich sulfide liquid from Fe-metal melt. Most inclusions represent alternation of layers of troilite and daubréelite, which may be a result of solid decay of an initial Fe-Cr-sulfide. These inclusions are partially resorbed and mainly located in fissures of the meteorite, which is now filled with magnetite, and rarely other secondary minerals. Phase relations indicate that uakitite is one of the early minerals in these associations. It forms isometric (cubic) crystals (in daubréelite) or rounded grains (in schreibersite). The size of uakitite grains is usually less than 5 µm. It is associated with sulfides (daubréelite, troilite, grokhovskyite), schreibersite and magnetite. Carlsbergite CrN, a more abundant nitride in the Uakit meteorite, was not found in any assemblages with uakitite. Physical and optical properties of uakitite are quite similar to synthetic VN: yellow and transparent phase with metallic luster; Mohs hardness: 9–10; light gray color with a pinky tint in reflected light; density (calc.) = 6.128 g/cm3. Uakitite is structurally related to the osbornite group minerals: carlsbergite CrN and osbornite TiN. Structural data were obtained for three uakitite crystals using the electron backscatter diffraction (EBSD) technique. Fitting of the EBSD patterns for a synthetic VN model (cubic, Fm-3m, a = 4.1328(3) Å; V = 70.588(9) Å3; Z = 4) resulted in the parameter MAD = 0.14–0.37° (best-good fit). Analytical data for uakitite (n = 54, in wt. %) are: V, 71.33; Cr, 5.58; Fe, 1.56; N, 21.41; Ti, below detection limit (<0.005). The empirical formula (V0.91Cr0.07Fe0.02)1.00N1.00 indicates that chromium incorporates in the structure according to the scheme V3+ → Cr3+ (up to 7 mol. % of the carlsbergite end-member).

KW - Buryatia

KW - Carlsbergite

KW - Daubréelite

KW - IIAB iron

KW - Osbornite group

KW - Troilite

KW - Uakit meteorite

KW - Uakitite

KW - ALLENDE METEORITE

KW - CARLSBERGITE

KW - CRYSTAL-STRUCTURE

KW - METAL NITRIDES

KW - osbornite group

KW - STATE

KW - uakitite

KW - carlsbergite

KW - SILICON-NITRIDE

KW - PHASE

KW - daubreelite

KW - troilite

KW - VANADIUM NITRIDE

KW - THERMODYNAMIC ASSESSMENT

KW - CRN

UR - http://www.scopus.com/inward/record.url?scp=85079546474&partnerID=8YFLogxK

U2 - 10.3390/min10020150

DO - 10.3390/min10020150

M3 - Article

AN - SCOPUS:85079546474

VL - 10

JO - Minerals

JF - Minerals

SN - 2075-163X

IS - 2

M1 - 150

ER -

ID: 23543015