Features of Phasea Mineralogical Conversions when Burning Wall Ceramics on the Basis of Secondary Materials for Processing Coal Deposits of Eastern Donbass

Khungiaonos Yavruyan; Evgeny Gaishun; Vladimir Kotlyar; A.S. Okhotnaya

doi:10.4028/www.scientific.net/MSF.974.67

Paper Titles

The Raw Materials Genetic Type Effect on the Water-Reducing Additives Effectiveness
p.43

Study of the Hydration Processes of Modified Binders by Infrared Spectroscopy
p.49

Effective Non-Autoclave Silicate Blocks of Casting Molding Process Based on Unconventional Aluminosilicate Raw Materials
p.55

Correlation of Quality Assessment Methods of Class F Fly as for Synthesis of Geopolymers
p.61

Features of Phasea Mineralogical Conversions when Burning Wall Ceramics on the Basis of Secondary Materials for Processing Coal Deposits of Eastern Donbass
p.67

Reasons of Blooming on Light Clinker Paving Bricks
p.75

The Calcite Crystallinity and the Age of Limestone Brick Mortars of Medieval Objects of the North of the Byzantine Oecumene
p.83

Chipboards with Plasma Protective Decorative Coatings
p.90

Block Foam Glass with Plasma Protective and Decorative Coatings
p.96

HomeMaterials Science ForumMaterials Science Forum Vol. 974Features of Phasea Mineralogical Conversions when...

Features of Phasea Mineralogical Conversions when Burning Wall Ceramics on the Basis of Secondary Materials for Processing Coal Deposits of Eastern Donbass

Abstract:

The paper presents the results of the studies on the phase conversions taking place during the firing of the refuse piles processing sieve residue in the Eastern Donbass, which are the promising raw materials for the production of various types of structural ceramics – common, lining and clinker bricks, high-performance ceramic stones, ceramic tiles and siding. It is established that the sieve residue is the raw material of the low-temperature baking. Depending on the degree of grinding, the raw material may belong to the group of mid-baking or high-baking raw materials. The sieve residues have a rather narrow baking interval - no more than 50 °C, which is possible to expand by increasing the content of fine fractions during the preparation of sieve residue. The main mineral phases at the firing temperature of 1000-1100 ^оС are quartz, feldspar, ferrous silicates and aluminum silicates (fayalite, hypersten, etc.), hematite. The features of the phase and mineralogical conversions allow us to recommend to fire products on the basis of sieve residue at temperatures of 1000 °C and higher.

You might also be interested in these eBooks

Materials and Technologies in Construction and Architecture II

View Preview

Info:

Periodical:

Materials Science Forum (Volume 974)

Pages:

67-74

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.974.67

Citation:

Cite this paper

Online since:

December 2019

Authors:

Khungiaonos Yavruyan*, Evgeny Gaishun, Vladimir Kotlyar, A.S. Okhotnaya

Keywords:

Argillites, Firing, Minerals, Phase Conversions, Refuse Pile, Sieve Residue, Siltstones, Structural Ceramics

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Kh. S. Yavruyan, V. D. Kotlyar, E. O. Lotoshnikova, E. S. Gaishun, Investigation of medium-fraction materials processing of terriconics for production wall ceramic products, Building Materials. 4 (2018) 17-20.

DOI: 10.4028/www.scientific.net/msf.931.532

Google Scholar

[2] V. Kotlyar, K. Yavruyan, Thin issues products of processing waste heaps as raw materials for ceramic wall products, MATEC Web of Conferences Сер, International Conference on Modern Trends in Manufacturing Technologies and Equipment, ICMTMTE 2017», (2017) 0501.

DOI: 10.1051/matecconf/201712905013

Google Scholar

[3] V.D. Kotlyar, A.V. Kozlov, A.V. Kotlyar, Yu. V. Terekhina, Argillite-type clays of the south of Russia - promising raw material for clinker brick manufacturing, Scientific Review. 7-3 (2014) 847-850.

Google Scholar

[4] V. Kotlyar, Kh. Yavruyan, E. Gaishun, Y. Teryokhina, Comprehensive Approach to the Processing of East Donbass Spoil Tip, Proceedings of the 2018 IEEE International Conference Management of Municipal Waste as an Important Factor of Sustainable Urban Development" (WASTE,2018), (2018) 22-24.

DOI: 10.1109/waste.2018.8554158

Google Scholar

[5] A.Yu. Stolboushkin, A.I. Ivanov, O.A. Fomina, Use of Coal-Mining and Processing Wastes in Production of Bricksand Fuel for Their Burning, International Conference on Industrial Engineering, ICIE 2016, Procedia Engineering. 150 (2016) 1496-1502.

DOI: 10.1016/j.proeng.2016.07.089

Google Scholar

[6] Kh.S. Yavruyan, V.D. Kotlyar, E.S. Gaishun, Medium-Fraction Materials for Processing of Coal-Thread Waste Drains for the Production of Wall Ceramics, Materials and Technologies in Construction and Architecture, Materials Science Forum Submitte. 931 (2018) 532-536.

DOI: 10.4028/www.scientific.net/msf.931.532

Google Scholar

[7] G.I. Storozhenko, A. Yu. Stolboushkin, A. I. Ivanov, Processing of carbonaceous mud for the production of ceramic raw materials and process fuel. Building materials. 8 (2015) 50-59.

Google Scholar

[8] F. Pacheco-Torgal, P.B. Lourenço, J.A. Labrincha, S. Kumar, P. Chindaprasirt, Eco-efficcient Masonry Bricks and blocks, Desing, Properties and Durability, Copyright Elsevier Ltd. (2015).

DOI: 10.1016/b978-1-78242-305-8.00001-2

Google Scholar

[9] O.V. Yapaskurt, Lithology, Publishing center «Academy», Moscow, (2008).

Google Scholar

[10] E.S. Gaishun, Kh. S. Yavruyan, V. D. Kotlyar, Technology of production of highly effective ceramic stones on the basis of products of processing of coal dumps, Materials of the XIII International scientific and technical conference of young scientists dedicated to the memory of Professor V.I. Kalashnikov Theory and practice of improving the efficiency of building materials,. Penza, PGASU. (2018) 18-26.

Google Scholar