AbstractAbout AuthorsReferences
On the basis of the analysis of literature data and experimental results with due regard for characteristics of composition and properties of aluminum silicate raw materials from sedimentation mass, the opportunities of its usage in construction materials as a raw component for production of cement, ceramic, porous aggregates; as a component in composite binders of hydration, air and autoclaved hardening; additives, aggregates and fillers in cement, ceramic, organo-mineral systems are demonstrated. However, on the basis of genetic features of these non-traditional raw materials there are restrictions on its application. Therefore, in most cases, a modification is required to increase its efficiency. In this paper the expansion of fields of application of aluminum silicate rocks from sedimentation mass modified by heat treatment at 300–900оС is considered. Thermal modification makes it possible to improve qualitative and techno-economic characteristics of polyfunctional composites for the construction industry.
M.S. LEBEDEV, Candidate of Sciences (Engineering) (This email address is being protected from spambots. You need JavaScript enabled to view it.)
I.V. ZHERNOVSKY, Candidate of Sciences (Geology and Mineralogy)
E.V. FOMINA, Candidate of Sciences (Engineering)
A.E. FOMIN, Master Student
I.V. ZHERNOVSKY, Candidate of Sciences (Geology and Mineralogy)
E.V. FOMINA, Candidate of Sciences (Engineering)
A.E. FOMIN, Master Student
Belgorod State Technological University named after V.G. Shukhov(46, Kostyukov Street, Belgorod, 308012, Russian Federation)
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2. Lebedev M.S., Potapova I.Yu., Lyutenko A.O. Features of aluminosilicate raw composition in the context of usage in road-building materials. Aktual’nye problemy gumanitarnykh i estestvennykh nauk. 2013. No. 5 (52), pp. 70–74. (In Russian).
3. Lebedev M.S., Zhernovsky I.V., Fomina E.V., Potapova I.Yu. Aspects of application of IR-spectroscopy for aluminosilicate raw components in construction materials sciences. «Engineering sciences – from theory to practice»: Proceedings of XXIV International correspondence research and practice conference. Novosibirsk. 2013, pp. 94–105. (In Russian).
4. Knigina G.I. Stroitel’nye materialy iz gorelykh porod [Construction materials from burnt rocks]. Moscow: Stroiizdat. 1966. 208 p.
5. Lebedev M.S. Rationale for choosing of temperature treatment for mineral components in constructions materials industry and road construction. Materia y VIII Midzynarodowej naukowi-praktycznej konferencji ≪Nauka: teoria i praktyka – 2012≫. Przemy l. Nauka i studia. 2012. Vol. 12, pp. 58–60. (In Russian).
6. Dvorkin L.I., Dvorkin O.L. Stroitel’nye materialy iz otkhodov promyshlennosti [Construction materials based on industrial wastes]. Rostov-on-Don: Feniks. 2007. 368 p.
7. Fomina E.V., Kozhukhova N.I., Pal’shina Yu.V., Strokova V.V., Fomin A.E. Effect of mechanoactivation on dimensional parameters of aluminosilicate rocks. Stroitel’nye Materialy [Construction Materials]. 2014. No. 10, pp. 28–33. (In Russian).
8. Khodykin E.I., Fomina E.V., Nikolaenko M.A., Lebedev M.S. Rational fields of application of coal strip mine raw materials. Vestnik Belgorodskogo gosudarstvennogo tekhnologicheskogo universiteta im. V.G. Shukhova. 2009. No. 3, pp. 125–128. (In Russian).
9. Lyutenko A.O., Lebedev M.S., Strokova V.V. Analysis of mining wastes as potential source of raw materials for road-building materials production. Vestnik Volgogradskogo gosudarstvennogo arkhitekturno-stroitel’nogo universiteta. Seriya: Stroitel’stvo i arkhitektura. 2013. Vol. 31 (50). Part 2. Stroitel’nye nauki, pp. 445–449. (In Russian).
10. Ravich B.M., Okladnikov V.P., Lygach V.N. i dr. Kompleksnoe ispol’zovanie syr’ya i otkhodov [Complex use of raw materials and wastes]. Moscow: Khimiya. 1988. 288 p.
11. Khodykin E.I. K probleme ispol’zovaniya toplivosoderzhashchikh otkhodov v promyshlennosti stroitel’nykh materialov: monografiya [To problem of application of fuel-bearing wastes in constructions materials industry: monograph]. Belgorod: BelGTASM. 2000. 40 p.
12. Khodykin E.I. Tekhnogennye mineral’nye dobavki dlya proizvodstva portlandtsementnogo klinkera: monografiya [Industrial mineral additives for Portland cement clinker producing: monograph]. Belgorod: BelGTASM. 2003. 96 p.
13. Strokova V.V., Solov’eva L.N., Maksakov A.V., Ogurtsova Yu.N. Structure formation mechanism for construction compositions with granulated nano-structuring aggregate. Stroitel’nye Materialy [Construction Materials]. 2011. No. 9, pp. 64–65. (In Russian).
14. Strokova V.V., Lozovaya S.Yu., Solov’eva L.N., Ogurtsova Yu.N. Properties forecasting of structural-insulating concrete on basis of granulated nano-structuring aggregate. Vestnik Belgorodskogo gosudarstvennogo tekhnologicheskogo universiteta im. V.G. Shukhova. 2011. No. 1, pp. 15–19. (In Russian).
15. Lyutenko A.O., Khodykin E.I., Shcheglov A.F., Nikolaenko M.A. Composite binder on basis of by-product rocks of coal deposits for soil stabilization in road construction. Stroitel’nye Materialy [Construction Materials]. 2009. No. 7, pp. 22–24. (In Russian).
16. Nosova A.N., Fomina E.V. Thermoactivation of the opal-cristobalite rock – waste of Korkino coal deposit. ≪Engineering sciences – from theory to practice≫: Proceding of XXIV International correspondence research and practice conference. Novosibirsk. 2013, pp. 106–111. (In Russian).
17. Volodchenko A.N., Khodykin E.I., Strokova V.V. To problem of application by-product raw materials of coal deposits for producing autoclave silicate materials. ≪Scientific studies, nanosystems and resource-saving technologies in constructions materials industry≫: book of reports of International research and practice conference. Belgorod. 2010. Part. 1, pp. 110–113. (In Russian).
18. Vinogradov B.N. Syr’e dlya proizvodstva avtoklavnykh silikatnykh betonov [Raw materials for autoclave silicate concretes production]. Moscow: Stroiizdat. 1966. 131 p. 19. Lesovik V.S. Povyshenie effektivnosti proizvodstva stroitel’nykh materialov s uchetom genezisa gornykh porod [Efficiency enhancement of construction materials taking into account the rock’s genesis]. Moscow: ASV. 2006. 526 p.
20. Strokova V.V., Alfimova N.I., Cherkasov V.S., Shapovalov N.N. Pressed silicate materials of autoclave hardening with the use of claydite production waste Stroitel’nye Materialy [Construction Materials]. 2012. No. 3, pp. 14–15. (In Russian).
21. Lebedev M.S., Strokova V.V., Zhernovsky I.V., Potapova I.Yu. Changing of properties of mineral fillers based on aluminosilicate raw materials under thermal modification. Stroitel’nye Materialy [Construction Materials]. 2012. No. 9, pp. 68–70. (In Russian).
For citation: Lebedev M.S., Zhernovsky I.V., Fomina E.V., Fomin A.E. Features of Clay Rocks Application when Construction Material Production. Stroitel’nye Materialy [Construction Materials]. 2015. No. 9, pp. 67-72. (In Russian). DOI: https://doi.org/10.31659/0585-430X-2015-729-9-67-72