MINERALOGICAL FEATURESOF THE EXPANDED VERMICULITE ORES-Reference-Cited by-同舟云学术

MINERALOGICAL FEATURESOF THE EXPANDED VERMICULITE ORES

Published:2022-09 Issue:9 Volume: Page:55-65
ISSN:0131-9582
Container-title:Steklo i Keramika
language:
Short-container-title:

Author:

Rumi M. K.,Urazaeva E. M.,Nurmatov Sh. R.,Irmatova S. K.,Faiziev Sh. A.,Mansurova E. P.,Zufarov M. A.,Iskandarov N. E.

Abstract

The natural minerals of the Tebinbulak deposit, which are used as a thermal insulation material, have been studied, while their swelling coefficient depends on the size of the raw material and ranges from 3.47 to 7.67. The structure of the material has been studied by X-ray diffraction and infrared spectroscopy. The chemical composition has been determined by the microprobe method, and phase transformations during heating by differential scanning calorimetry. The obtained-information allowed us to conclude that this micaceousmineralis at the initial stage of metamorphism: disordered interlayer structure of phlogopite/vermiculite (hydrophlogopite). The information is important when discussing the influence of the structure of hydrosludes on the possibility and nature of their swelling during heating.

Publisher

Izdatel'skii dom Spektr, LLC

Subject

Ceramics and Composites

Reference15 articles.

1. Попов Е. Л., Ахмедов Х., Хабибуллаева Г. Р. Результаты технологических исследований двух проб вермикулитовой руды месторождения Тебинбулак // Горный вестник Узбекистана. 2010. № 4(43). С. 84 – 87.

2. Досанова Г. М., Талипов Н. Х., Левицкий И. А. Характеристика вермикулитов Тебинбулакского месторождения Республики Каракалпакстан // Интеграция и развитие научно-технического и образовательного сотрудничества – взгляд в будущее: сб. ст. II Между-нар. науч.-техн. конф. «Минские научные чтения – 2019», Минск, 11–12 декабря 2019 г.: Т. 2. Минск: БГТУ, 2020. С. 62 – 66.

3. Campos A., Moreno S., Molina R. Characterization of vermiculite by XRD and spectroscopic techniques // Earth Sci. Res. J. 2009. V. 13, No. 2. P. 108 – 118.

4. Bergaya F., Theng B. K. G., Lagaly G. Handbook of clay science. Oxford: Elsevier, 2006.

5. Macheca A. D., Focke W. W., Muiambo H. F., Kaci M. Stiffening mechanisms in vermiculite–amorphous polyamide bio-nanocomposites // European Polymer Jour-nal. 2016. No. 74. P. 51–63.