Standard

THERMAL DEFORMATIONS AND PHASE TRANSFORMATIONS IN TOURMALINES. / Filatov, S. K.; Gorskaya, M. G.; Bolotnikova, N. I.

в: Neorganiceskie materialy, Том 23, № 4, 01.04.1987, стр. 594-599.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Filatov, SK, Gorskaya, MG & Bolotnikova, NI 1987, 'THERMAL DEFORMATIONS AND PHASE TRANSFORMATIONS IN TOURMALINES.', Neorganiceskie materialy, Том. 23, № 4, стр. 594-599.

APA

Filatov, S. K., Gorskaya, M. G., & Bolotnikova, N. I. (1987). THERMAL DEFORMATIONS AND PHASE TRANSFORMATIONS IN TOURMALINES. Neorganiceskie materialy, 23(4), 594-599.

Vancouver

Filatov SK, Gorskaya MG, Bolotnikova NI. THERMAL DEFORMATIONS AND PHASE TRANSFORMATIONS IN TOURMALINES. Neorganiceskie materialy. 1987 Апр. 1;23(4):594-599.

Author

Filatov, S. K. ; Gorskaya, M. G. ; Bolotnikova, N. I. / THERMAL DEFORMATIONS AND PHASE TRANSFORMATIONS IN TOURMALINES. в: Neorganiceskie materialy. 1987 ; Том 23, № 4. стр. 594-599.

BibTeX

@article{274a3cd948854df295194ec56f0f2d95,
title = "THERMAL DEFORMATIONS AND PHASE TRANSFORMATIONS IN TOURMALINES.",
abstract = "In air, Tourmalines are stable up to 825-995 degree C, depending on their composition. The decomposition products are mullite and an X-ray amorphous phase, and also hypersthene in the case of magnesium-containing varieties and spodumene in the case of lithium-containing varieties. Up to 400 degree C, only a thermal expansion which is more intense along the c-axis occurs. In iron-containing tourmalines above 400 degree C oxidation of iron begins. The result is compression of the structure along the a-axis with compensation of the thermal expansion and a sharp increase in the c-parameter at high temperatures. The directions of the maximum thermal expansion, the maximum amplitudes of the thermal vibrations of atoms, and the minimum refractive index in the Tourmaline structure coincide with each other and are perpendicular to packets of the (001) structure.",
author = "Filatov, {S. K.} and Gorskaya, {M. G.} and Bolotnikova, {N. I.}",
year = "1987",
month = apr,
day = "1",
language = "English",
volume = "23",
pages = "594--599",
journal = "НЕОРГАНИЧЕСКИЕ МАТЕРИАЛЫ",
issn = "0002-337X",
publisher = "Издательство {"}Наука{"}",
number = "4",

}

RIS

TY - JOUR

T1 - THERMAL DEFORMATIONS AND PHASE TRANSFORMATIONS IN TOURMALINES.

AU - Filatov, S. K.

AU - Gorskaya, M. G.

AU - Bolotnikova, N. I.

PY - 1987/4/1

Y1 - 1987/4/1

N2 - In air, Tourmalines are stable up to 825-995 degree C, depending on their composition. The decomposition products are mullite and an X-ray amorphous phase, and also hypersthene in the case of magnesium-containing varieties and spodumene in the case of lithium-containing varieties. Up to 400 degree C, only a thermal expansion which is more intense along the c-axis occurs. In iron-containing tourmalines above 400 degree C oxidation of iron begins. The result is compression of the structure along the a-axis with compensation of the thermal expansion and a sharp increase in the c-parameter at high temperatures. The directions of the maximum thermal expansion, the maximum amplitudes of the thermal vibrations of atoms, and the minimum refractive index in the Tourmaline structure coincide with each other and are perpendicular to packets of the (001) structure.

AB - In air, Tourmalines are stable up to 825-995 degree C, depending on their composition. The decomposition products are mullite and an X-ray amorphous phase, and also hypersthene in the case of magnesium-containing varieties and spodumene in the case of lithium-containing varieties. Up to 400 degree C, only a thermal expansion which is more intense along the c-axis occurs. In iron-containing tourmalines above 400 degree C oxidation of iron begins. The result is compression of the structure along the a-axis with compensation of the thermal expansion and a sharp increase in the c-parameter at high temperatures. The directions of the maximum thermal expansion, the maximum amplitudes of the thermal vibrations of atoms, and the minimum refractive index in the Tourmaline structure coincide with each other and are perpendicular to packets of the (001) structure.

UR - http://www.scopus.com/inward/record.url?scp=0023316953&partnerID=8YFLogxK

M3 - Article

AN - SCOPUS:0023316953

VL - 23

SP - 594

EP - 599

JO - НЕОРГАНИЧЕСКИЕ МАТЕРИАЛЫ

JF - НЕОРГАНИЧЕСКИЕ МАТЕРИАЛЫ

SN - 0002-337X

IS - 4

ER -

ID: 53958061