Standard

Multi-component paraffin compositions: determining composition, structure and behaviour at heating. / Kotelnikova, E.N.; Platonova, N.V.; Filatov, S.K.

BIWIC 2010 - Proceedings of 17th International Workshop on Industrial Crystallization. Cuvillier Verlag, 2010. p. 303-309.

Research output: Chapter in Book/Report/Conference proceedingArticle in an anthologyResearchpeer-review

Harvard

Kotelnikova, EN, Platonova, NV & Filatov, SK 2010, Multi-component paraffin compositions: determining composition, structure and behaviour at heating. in BIWIC 2010 - Proceedings of 17th International Workshop on Industrial Crystallization. Cuvillier Verlag, pp. 303-309.

APA

Kotelnikova, E. N., Platonova, N. V., & Filatov, S. K. (2010). Multi-component paraffin compositions: determining composition, structure and behaviour at heating. In BIWIC 2010 - Proceedings of 17th International Workshop on Industrial Crystallization (pp. 303-309). Cuvillier Verlag.

Vancouver

Kotelnikova EN, Platonova NV, Filatov SK. Multi-component paraffin compositions: determining composition, structure and behaviour at heating. In BIWIC 2010 - Proceedings of 17th International Workshop on Industrial Crystallization. Cuvillier Verlag. 2010. p. 303-309

Author

Kotelnikova, E.N. ; Platonova, N.V. ; Filatov, S.K. / Multi-component paraffin compositions: determining composition, structure and behaviour at heating. BIWIC 2010 - Proceedings of 17th International Workshop on Industrial Crystallization. Cuvillier Verlag, 2010. pp. 303-309

BibTeX

@inbook{b623808d296c460dba8120762f11ce82,
title = "Multi-component paraffin compositions: determining composition, structure and behaviour at heating",
abstract = "We elaborated the identification technique for X-ray powder diffractionby means of X-ray diffractometry, chromatography, and high-temperature X-ray powder diffraction. We take into consideration the nature of mixtures (isomorphic or mechanic); features of molecule packing in the structure of a multi-component solid solution (orthorhombic character of the elementary cell and its frequent super-periodicity along the axis c); and diversity of the phase states of a solid solution (crystal state cryst and rotator-crystal states: low-temperature rot.1, intermediate rot.1+2, and high-temperature rot.2). The investigations were carried out in connection with a determination of forms of natural normal paraffins CnH2n+2 (solid solutions, mechanic mixtures, other compositions) and use them as a basis for elaboration of different composition materials",
keywords = "X-ray powder diffraction, rotator-crystal, solid solution",
author = "E.N. Kotelnikova and N.V. Platonova and S.K. Filatov",
year = "2010",
language = "English",
isbn = "3869554282",
pages = "303--309",
booktitle = "BIWIC 2010 - Proceedings of 17th International Workshop on Industrial Crystallization",
publisher = "Cuvillier Verlag",
address = "Germany",

}

RIS

TY - CHAP

T1 - Multi-component paraffin compositions: determining composition, structure and behaviour at heating

AU - Kotelnikova, E.N.

AU - Platonova, N.V.

AU - Filatov, S.K.

PY - 2010

Y1 - 2010

N2 - We elaborated the identification technique for X-ray powder diffractionby means of X-ray diffractometry, chromatography, and high-temperature X-ray powder diffraction. We take into consideration the nature of mixtures (isomorphic or mechanic); features of molecule packing in the structure of a multi-component solid solution (orthorhombic character of the elementary cell and its frequent super-periodicity along the axis c); and diversity of the phase states of a solid solution (crystal state cryst and rotator-crystal states: low-temperature rot.1, intermediate rot.1+2, and high-temperature rot.2). The investigations were carried out in connection with a determination of forms of natural normal paraffins CnH2n+2 (solid solutions, mechanic mixtures, other compositions) and use them as a basis for elaboration of different composition materials

AB - We elaborated the identification technique for X-ray powder diffractionby means of X-ray diffractometry, chromatography, and high-temperature X-ray powder diffraction. We take into consideration the nature of mixtures (isomorphic or mechanic); features of molecule packing in the structure of a multi-component solid solution (orthorhombic character of the elementary cell and its frequent super-periodicity along the axis c); and diversity of the phase states of a solid solution (crystal state cryst and rotator-crystal states: low-temperature rot.1, intermediate rot.1+2, and high-temperature rot.2). The investigations were carried out in connection with a determination of forms of natural normal paraffins CnH2n+2 (solid solutions, mechanic mixtures, other compositions) and use them as a basis for elaboration of different composition materials

KW - X-ray powder diffraction

KW - rotator-crystal

KW - solid solution

M3 - Article in an anthology

SN - 3869554282

SN - 9783869554280

SP - 303

EP - 309

BT - BIWIC 2010 - Proceedings of 17th International Workshop on Industrial Crystallization

PB - Cuvillier Verlag

ER -

ID: 4483317