THE RESEARCH OF MULTILAYER OUTER FENCING INCLUDING MATERIALS USING ASH AND SLAG WASTE OF THERMAL POWER PLANTS

,
https://doi.org/10.34031/2618-7183-2020-3-2-29-35
 29-35 p.
The most important direction of resource saving in construction is the widespread use of secondary material resources, which are waste products. The use of secondary products of industry as raw materials for the production of various building materials is very important, because it provides production with rich sources of cheap and, often, already prepared raw materials; lead to lower costs for the production of some building materials, and therefore saves capital investments intended for the construction of buildings and structures; release large areas of land and reduce the impact on the environment. The article deals with heat-insulating and structural-heat-insulating materials, with partial replacement of components by ash-slag waste (ASW): lightweight concretes with broken glass and concretes modified with sulfur. Properties of concretes modified with sulfur are investigated: compressive strength, density and thermal conductivity. In accordance with the obtained properties, a comparative characteristics of the received materials with existing building materials was carried out: sulfur modified concrete and lightweight concrete; lightweight concrete using broken glass and claydite-concrete. Thermophysical calculation of multilayer hencing is made. In each of the options, one of the following materials was selected as a structural and heat-insulating material: lightweight concrete using broken glass and sulfur modified concrete. Also, for each type of hencing, the necessary heat-insulating and structural materials were selected. In the economic part, the cost of the raw materials necessary to obtain 1 m3 of the investigated materials and the cost of 1 m3 of multilayer hencing, which includes the investigated concrete, are calculated.
Keywords:
ash and slag wastes, structural and heat-insulating materials, lightweight concretes
Medvedeva G.A.
Candidate of Engineering Sciences (Ph.D.), Associate Professor, Kazan State University of Architecture and Engineering, Russia
Lifantyeva A.F.
Kazan State University of Architecture and Engineering, Russia
1. Urhanova L.A., Dmitriev I.A. Shlakoshhelochnye vjazhushhie – vozmozhnost' primenenija v Pribajkal'e. Izvestija vuzov. Investicii. Stroitel'stvo. Nedvizhimost'. 2012. 1 (2). P. 75 – 78. (rus.)
2. Juenger M., Provis J.L., Elsen J., Matthes Shh. Supplementary Cementitious Materials for Concrete: Characterization Needs. MRS Online Proceeding Library Archive. 2012. 1488. 15 p.
3. Zoloshlakovye othody. Chast' 2: Jekonomicheskaja vygoda pererabotki [Jelektronnyj resurs]. URL: http://ect-center.com/blog/zoloshlakovie-othody-2 (data obrashhenija: 01.12.2018) (rus.)
4. Stroitel'nye materialy iz zoloshlakovyh othodov. Racional'noe ispol'zovanie tehnogennyh resursov [Jelektronnyj resurs]. http://ect-center.com/blog/stroymaty-iz-othodov (data obrashhenija: 01.12.2018) (rus.)
5. Lazar D., Ranogajec J., Rudić O.L., Hiršenberger H. Thermal conductivity of lightshheight aggregate based on coal fly ash. Journal of Thermal Analysis and Calorimetry. 2012. 110. P. 489 – 495.
6. Keun-Hyeok Jang, Kjung-Ho Lee Tests on Alkali-Activated Slag Foamed Concrete shhith Various Shha-ter-Binder Ratios and Substitution Levels of Fly Ash. Journal of Building Construction and Planning Re-search. 2013. 1. P. 8 – 14.
7. Medvedeva G.A., Ahmetova R.T., Stroganov V.F., Safin I.Sh. Kompozicionnye materialy stroitel'nogo naznachenija na osnove zoloshlakovyh othodov TJeC, modificirovannye seroj. Vestnik kazanskogo tehnologicheskogo universiteta. 2011. 7. P. 70 – 74. (rus.)
8. Medvedeva G.A., Sekarina O.S. Sovremennye stenovye teploizoljacionnye materialy sovmestno s materialami iz othodov teplojenergetiki. Internet-zhurnal «Naukovedenie». 2017. 9 (5). 11 p. (rus.)
9. Marita L Berndt. Properties of sustainable concrete containing fly ash, slag and recycled concrete ag-gregate. Construction and Building Materials. 2009. 23. P. 2606 – 2613.
10. Dongsheng Shi1, Jaiang Liu1, Hinhin Hue1Study on the durability of concrete using granulated blast furnace slag as fine aggregate. IOP Conference Series: Materials Science and Engineering. 2018. 322. 6 p.
11. SP 50.13330.2012 Teplovaja zashhita zdanij. Aktualizirovannaja redakcija SNiP 23-02-2003 (s izmeneniem 1) (data vvedenija: 2013-07-01) M.: Minregion Rossii, 2012. 139 p. (rus.)
Medvedeva G.A., Lifantyeva A.F. The research of multilayer outer fencing including materials using ash and slag waste of thermal power plants. Construction Materials and Products. 2020. 3 (2). P. 29 – 35. https://doi.org/10.34031/2618-7183-2020-3-2-29-35