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Volume 6
Research & Reviews: Journal of Material Sciences
ISSN: 2321-6212
Ceramics 2018
May 14-15, 2018
May 14-15, 2018 | Rome, Italy
4
th
International Conference and Expo on
Ceramics and Composite Materials
Practical approaches to energy efficiency improvement in SiC-based ceramics processing
Maria A. Vartanyan
1
, Nikolay A. Makarov
2
and
Tatiana V. Guseva
3
1,2
D.Mendeleev Universityof Chemical Technology of Russia
3
Russian BAT (IPPC) Bureau, Russia
Statement of the Problem:
Glass and ceramic industries fall into the category of energy-intensive industries and since 2014
when Integrated Pollution Prevention and Control was introduced in Russia these sectors have been closely monitored with
regards to resource efficiency and environmental performance. Methodology & Theoretical Orientation: Traditional sub-
sectors including tile and brick manufacturing in 2003-2013 participated in pilot projects intended to evaluate possibilities of
implementing Best Available Techniques (BATs) in Russian industries. Based on the results of these projects BATs have been
identified and national Information and Technical Reference Books developed. In manufacturing technical ceramics existing
sector-specific BATs comprise mostly emissions control. However, considering materials for advanced applications such as
alumina, zirconia or carborundum, where these levels are determined by strict process parameters, a generally accepted practice
is to reduce energy consumption by adjusting firing temperature. This allows to suggest candidate BATs: batch composition
adjustment, the use of eutectic sintering aids, and liquid-phase sintering. Findings:The present research addresses a combination
of these techniques in production of SiC-based structural ceramics including selection of additives based on their physico-
chemical properties (melting point, surface interaction) and the use of pre-fabricated sintering aids with enhanced reactivity.
The effects of the additives on sintering behavior, phase composition, microstructure, and mechanical properties were studied.
Conclusion & Significance: The combination of ultrafine SiC with 25 vol. % of a eutectic sintering aid in MgO-Al
2
O
3
-Y
2
O
3
system allowed to produce ceramics with bending strength of 450 MPa, fracture toughness of 4.0 MPa·m
1/2
, and elasticity
modulus of 380 GPa. Sintering temperature for this material didn’t exceed 1900°C, which makes this technique practically
suitable to reduce emissions and the impact on the environment. This research was carried out with financial support from the
Ministry of Education and Science of the Russian Federation under State order, contract No. 10.6309.2017/BCh.
Recent Publications
1. T. Guseva, A. Zakharov, M. Vartanyan, Y. Molchanova, N. Makarov (2016) Identifying Best Available Techniques for
Ceramic and Glass Industries in Russia. SGEM-2016. 5(1):351-358
2. Guseva T.V., Molchanova Y.P., Averochkin E.M., Vartanyan M.A., Begak M.V. (2014) Prospects for adopting the best
available technologies and moving to comprehensive environmental permits in the production of glass and ceramics
(review). Glass and Ceramics. 71(7-8):245-253.
3. Reference Document on Best Available Techniques in the Ceramic Manufacturing Industry. European IPPC Bureau,
2007.
4. Information and Technical Reference Book ‘Ceramic Manufacturing Industry’, 2015. URL:
http://www.burondt.ru/NDT/ NDTDocsDetail.php?UrlId=498&etkstructure_id=1872.
5. S.V. Zhitnyuk,
D.Yu. Zhukov, D.O. Lemeshev, N.A. Makarov (2015) Modification of Silicon Carbide Based Ceramic
Properties by Granulometric Composition Regulation. Glass and Ceramics. 72(7-8):245-253.
6. Mararakin M.D., Vartanyan M.A., Makarov N.A., Sazhin I.V. (2017) Sol-gel synthesis of eutectic additives for silicon
carbide-based ceramics. Glass and Ceramics. 9:25-27 (in Russian).
Biography
Maria Vartanyan is an expert in ceramics manufacturing, energy efficiency and environmental performance in production of ceramics materials based on oxide and non-
oxide compounds.
mariavartanyan@mail.ruMaria A. Vartanyan et al., Res. Rev. J Mat. Sci. 2018, Volume 6
DOI: 10.4172/2321-6212-C1-014