AbstractAbout AuthorsReferences
Results of the study of influence of dispersity of quartz-feldspar waste and a diopside concentrate in ceramic masses on the sintering and properties of building ceramics are presented. It is established that reducing the dispersity of quartz-feldspar waste in the samples entails the fire shrinkage, decrease in the optimal burning temperature, strength growth. The diopside concentrate with dispersity of 150 mkm in the composition of ceramic masses ensures the obtaining of a non-shrink building material with high physical-mechanical properties.
A.E. BURUCHENKO1, Doctor of Sciences (Engineering)
V.I. VERESHCHAGIN2, Doctor of Sciences (Engineering)
S.I. MUSHARAPOVA1, Engineer (This email address is being protected from spambots. You need JavaScript enabled to view it.)
V.K. MENSHIKONA1, Engineer (This email address is being protected from spambots. You need JavaScript enabled to view it.)
V.I. VERESHCHAGIN2, Doctor of Sciences (Engineering)
S.I. MUSHARAPOVA1, Engineer (This email address is being protected from spambots. You need JavaScript enabled to view it.)
V.K. MENSHIKONA1, Engineer (This email address is being protected from spambots. You need JavaScript enabled to view it.)
1 Siberian Federal University (79/10, Room P7-04, Svobodny Avenue, Krasnoyarsk, 660041, Russian Federation)
2 National ResearchTomsk Polytechnic University (30,Lenin Avenue, Tomsk, 634050, RussianFederation)
1. Development of Ceramic Industry of Russia Proceeds. The ХII International Scientific and Practical Conference KERAMTEX-2014 Was Held in Rostov-on-Don (Information). Stroitel’nye Materialy [Construction Materials]. 2014. No. 8, pp. 4–9. (In Russian).
2. Semyonov A.A. Ceramic Wall Materials Market: Results of 2014 and Forecast for 2015. Stroitel’nye Materialy [Construction Materials]. 2015. No. 4, pp. 3–5. (In Russian).
3. Gur’eva V.A., Prokof’eva V.V. Structural and phase characteristics of building ceramics based of industrial magnesium raw materials and low-grade clay. Stroitel’nye Materialy [Construction Materials]. 2014. No. 4, pp. 55–57. (In Russian).
4. Rajamannan B., Kalyana Sundaram C., Viruthagiri G., Shanmugan N. Effects of fly ash addition on the mechanical and ather properties of ceramic. International Journal of Latest Research in Science and Technology. 2013. Vol. 2, Issue 1, pp. 486-491.
5. Buruchenko A.E., Musharapova S.I. Building Ceramics with the Use of Loams and Waste of Aluminum Production. Stroitel’nye Materialy [Construction Materials]. 2010. No. 12, pp. 28–33. (In Russian).
6. Ilina L.V., Berdov G.I., Gichko N.O., Teplov A.N. Changing structure and mechanical strength portland cement stones when introducing complex dispersive mineral fillers. Izvestija vuzov. Stroitel’stvo. 2014. No. 4, pp. 38–44. (In Russian).
7. Stolboushkin A.Yu., Berdov G.I., Stolboushkina O.V., Zlobin V.I. Firing temperature impact on structure forming in ceramic wall materials produced of fine dispersed iron ore enrichment wastes. Izvestija vuzov. Stroitel’stvo. 2014. No. 1, pp. 33–42. (In Russian).
8. Vereshchagin V. I., Men’shikova V. K., Buruchenko A. E., Mogilevskaya N. V. Diopside-based ceramic materials. Steklo i keramika. 2010. No. 11, pp. 13–16. (In Russian).
9. Stolboushkin А.Yu. Influence of the wollastonite additive on the structure of wall ceramic materials from technogenic and natural resources. Stroitel’nye Materialy [Construction Materials]. 2014. No. 8, pp. 13–17. (In Russian).
2. Semyonov A.A. Ceramic Wall Materials Market: Results of 2014 and Forecast for 2015. Stroitel’nye Materialy [Construction Materials]. 2015. No. 4, pp. 3–5. (In Russian).
3. Gur’eva V.A., Prokof’eva V.V. Structural and phase characteristics of building ceramics based of industrial magnesium raw materials and low-grade clay. Stroitel’nye Materialy [Construction Materials]. 2014. No. 4, pp. 55–57. (In Russian).
4. Rajamannan B., Kalyana Sundaram C., Viruthagiri G., Shanmugan N. Effects of fly ash addition on the mechanical and ather properties of ceramic. International Journal of Latest Research in Science and Technology. 2013. Vol. 2, Issue 1, pp. 486-491.
5. Buruchenko A.E., Musharapova S.I. Building Ceramics with the Use of Loams and Waste of Aluminum Production. Stroitel’nye Materialy [Construction Materials]. 2010. No. 12, pp. 28–33. (In Russian).
6. Ilina L.V., Berdov G.I., Gichko N.O., Teplov A.N. Changing structure and mechanical strength portland cement stones when introducing complex dispersive mineral fillers. Izvestija vuzov. Stroitel’stvo. 2014. No. 4, pp. 38–44. (In Russian).
7. Stolboushkin A.Yu., Berdov G.I., Stolboushkina O.V., Zlobin V.I. Firing temperature impact on structure forming in ceramic wall materials produced of fine dispersed iron ore enrichment wastes. Izvestija vuzov. Stroitel’stvo. 2014. No. 1, pp. 33–42. (In Russian).
8. Vereshchagin V. I., Men’shikova V. K., Buruchenko A. E., Mogilevskaya N. V. Diopside-based ceramic materials. Steklo i keramika. 2010. No. 11, pp. 13–16. (In Russian).
9. Stolboushkin А.Yu. Influence of the wollastonite additive on the structure of wall ceramic materials from technogenic and natural resources. Stroitel’nye Materialy [Construction Materials]. 2014. No. 8, pp. 13–17. (In Russian).
For citation: Buruchenko A.E., Vereshchagin V.I., Musharapova S.I., Menshikona V.K. Influence of Dispersity of Non-Plastic Components of Ceramic Masses on Sintering and Properties of Building Ceramics. Stroitel’nye Materialy [Construction Materials]. 2015. No. 8, pp. 64-67. (In Russian). DOI: https://doi.org/10.31659/0585-430X-2015-728-8-64-67