Theoretical Assessment of the Prospects for the Use of Raw Materials in Ceramic Production

Victoria A. Gurieva; Anastasia A. Ilyina; Aleksandr V. Doroshin

doi:10.4028/www.scientific.net/KEM.887.499

Paper Titles

Effect of Cement Paste Preparation Procedure and Cement Stone Age on its Phase Composition
p.473

Unused Plant Waste and Thermal Insulation Composition Boards on their Basis
p.480

Sulfide Technology Based on Sulfur Waste Product of Coke Production
p.487

Filled Heat Efficient Ceramics
p.493

Theoretical Assessment of the Prospects for the Use of Raw Materials in Ceramic Production
p.499

Polymer-Bitumen Binders Compositions Selection by Using the Experimental Planning Method
p.504

The Use of Waste from the Processing of Copper-Zinc Concentrates of the East Kazakhstan Region in the Production of Non-Fired Refractory Composites
p.511

Analysis of the Quality of Quartz-Feldspar Sand as a Component of a Composite Binder
p.516

Influence of Fillers on Silicate Compositions Porization
p.521

HomeKey Engineering MaterialsKey Engineering Materials Vol. 887Theoretical Assessment of the Prospects for the...

Theoretical Assessment of the Prospects for the Use of Raw Materials in Ceramic Production

Abstract:

The paper presents the results of analyzing the prospects of using clay raw materials in a composition with metallurgical slags for the production of ceramic products. The results of the analysis of the chemical and mineralogical properties of clay from the Khalilovsky deposit in the Orenburg region and nickel slags from the dumps of the South Ural Nickel Combine are presented. The studies were carried out using X-ray fluorescence and differential thermal analysis methods. The article presents the performed X-ray and derivatograms of slag and clay and the features of the experimental types of raw materials revealed during their analysis. The connection between the chemical and mineralogical compositions of the experimental clay and slags on the technological properties of finished ceramic products has been theoretically established. The use of XRF and DTA to study the characteristics of plastic and non-plastic raw materials made it possible at the first stages of the experiment to reject materials that were unsatisfactory in properties for the production of ceramic products, which contributes to the optimization of experiments, rational consumption of costs of newly mined clay raw materials.

You might also be interested in these eBooks

FarEastCon - Materials and Construction III

View Preview

Info:

Periodical:

Key Engineering Materials (Volume 887)

Pages:

499-503

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.887.499

Citation:

Cite this paper

Online since:

May 2021

Authors:

Victoria A. Gurieva, Anastasia A. Ilyina, Aleksandr V. Doroshin

Keywords:

Ceramics, Clay, Construction Materials, Differential Thermal Analysis, Industrial Waste, Nickel Slag, X-Ray Fluorescence Analysis

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Industrial production in Russia, 2019: Statistical collection, Rosstat, M., 2019, 286 p.

Google Scholar

[2] V.I. Kalashnikov, V.Y. Nesterov, V.L. Kalashnikov, Clay-slag building materials, Khvastunov and others; Under total. ed. Dr. tech. sciences, prof. IN AND., Penza: PGASA. 207 (2000).

Google Scholar

[3] L.I. Mirkin, X-ray structural analysis, M. Science, 1976, 863 p.

Google Scholar

[4] V.A. Gurieva, A.A. Ilyina, A.V. Doroshin, Prospects for the development of building ceramics based on clays and nickel slags of Orenburg region, Materials Science Forum. Vol. 992 (2020) 54-58. DOI: https://www.scientific.net/MSF.992.54.

DOI: 10.4028/www.scientific.net/msf.992.54

Google Scholar

[5] N.V. Logvinenko, Petrography of sedimentary rocks (with the basics of research methods) Vysshaya Shkola, Moscow. (1984) 416.

Google Scholar

[6] B.K. Kara-Sal, E.M. Huura,k, Influence of carbonate components of clay rocks on the properties of ceramic products, Bulletin of Tuva State University, Technical and physical and mathematical sciences. Vol. 3 (2018). URL: https://cyberleninka.ru/article/n/vliyanie-karbonatnyh-sostavlyayuschih-glinistyh-porod-na-svoystva-keramicheskih-izdeliy (date of access: 05.07.2020).

Google Scholar

[7] A.M. Salakhov, R.R Kabirov, G.R Faseeva., V.P Morozov, R.A Salakhova, Mineral composition of building ceramics products and their characteristics, Bulletin of Kazan Technological University. Vol. 15 (2015). URL: https://cyberleninka.ru/article/n/mineralnyy-sostav-izdeliy-stroitelnoy-keramiki-i-ih-harakteristiki (date accessed: 14.06.2020).

Google Scholar

[8] V.D. Kotlyar, K.A. Lapunova, Features of physical and chemical transformations during the firing of opoka-like raw materials, Stroitelnye materialy. Vol. 5 (2016) 40–42. DOI: https://doi.org/10.31659/0585-430X-2016-737-5-40-42.

DOI: 10.31659/0585-430x-2022-801-4-25-30

Google Scholar

[9] V.I. Ivanova, Thermal analysis of minerals and rocks, L. Nedra, 1974, 399 p.

Google Scholar

[10] B.Ya. Trofimov, K.V. Shuldyakov, Technology of building ceramics, Chelyabinsk: South Ural State University. 524 (2019).

Google Scholar