employee
Russian Federation
employee
Russian Federation
Russian Federation
employee
Russian Federation
employee
Russian Federation
Russian Federation
student
Russian Federation
GRNTI 67.09 Строительные материалы и изделия
BBK 383 Строительные материалы и изделия
The article presents the outcomes of analysis and synthesis of Russian and Kazakh researches on the issue of the use of industrial waste industry for the production of composite slag base binders and concretes. Utilization, liquidation of industrial wastes and their use in the production of composite alkali-activated slag are the issues of global and national importance. Therefore, industrial and developed countries pay great attention to this issue. The influence of the production wastes of the enrichment of polymetallic ores – carbonate-barium tailings on the performance properties (strength, water absorption, density, etc.) of composite alkali-activated slag and concretes is studied. The ways of introducing modifying additives “waste of carbonate-barium tailings” into the composition of alkali-activated slag and concretes are investigated. The optimal amount of introduction the waste of carbonate-barium tailings into the composition of alkali-activated slag of modifying additives is determined. It is 10% of the binder mass and an indicator of effectiveness in influencing the activity of concrete, depending on the type of alkaline component and the hardening conditions. The methods of testing the experimental work to determine the operational properties of alkali-activated slag and concretes based on them are presented.
waste of carbonate-barium tails, alkali-activated slag, modifying additives, strength, water absorption, density.
1. Lesovik V.S. A new paradigm for creating composites for the construction industry [Novaya paradigma sozdaniya kompozitov dlya strojindustrii]. V sbornike: Sovremennye stroitel'nye materialy, tekhnologi i konstrukcii Materialy Mezhdunarodnoj nauchno-prakticheskoj konferencii, posvyashchennoj 95-letiyu FGBOU VPO "GGNTU im. akad. M.D. Millionshchikova". Federal'noe gosudarstvennoe byudzhetnoe obrazovatel'noe uchrezhdenie vysshego professional'nogo obrazovaniya «Groznenskij gosudarstvennyj neftyanoj tekhnicheskij universitet imeni akademika M.D. Millionshchikova» (FGBOU VPO «GGNTU»), Grozny. 2015. Pp. 17-24. (rus)
2. Lesovik V.S., Chulkova I.L., Zagorodnyuk L.Kh. Practical implementation of the law of affinity of structures during the restoration of historical objects [Prakticheskaya realizaciya zakona srodstva struktur pri restavracii istoricheskih ob"ektov]. V sbornike: Naukoemkie tekhnologii i innovacii YUbilejnaya Mezhdunarodnaya nauchno-prakticheskaya konferenciya, posvyashchennaya 60-letiyu BGTU im. V.G. Shuhova (XXI nauchnye chteniya) 2014. Pp. 242-246. (rus)
3. Zagorodnyuk L.Kh., Lesovik V.S., Popov D.Yu., Glagolev E.S. Practice of using the law of affinity of structures for designing effective composites [Praktika ispol'zovaniya zakona srodstva struktur dlya proektirovaniya ehffektivnyh kompozitov]. V sbornike: Naukoemkie tekhnologii i innovacii YUbilejnaya Mezhdunarodnaya nauchno-prakticheskaya konferenciya, posvyashchennaya 60-letiyu BGTU im. V.G. Shuhova (XXI nauchnye chteniya). 2014. Pp. 156-163. (rus)
4. Lesovik V.S., Chernysheva N.V., Glagolev E.S., Drebezgova M.Yu., Ermolaeva A.E. 3D-Additive Technologies in the Field of Construction [3D-Additivnye tekhnologii v sfere stroitel'stve]. V sbornike: Intellektual'nye stroitel'nye kompozity dlya zelenogo stroitel'stva Mezhdunarodnaya nauchno-prakticheskaya konferenciya,posvyashchennaya 70-letiyu zasluzhennogo deyatelya nauki RF, chlena-korrespondenta RAASN, doktora tekhnicheskih nauk, professora Valeriya Stanislavovicha Lesovika. 2016. Pp. 157-167. (rus)
5. Lesovik V.S., Volodchenko A.A., Svinarev A.V., Kalashnikov N.V., Rjapuhin N.V. Reducing energy of autoclave wall materials. World Applied Sciences Journal. 2014. Vol. 31. No. 9. Pp. 1601-1606.
6. Urkhanova L.A., Balkhanova E.D. Production of composite aluminosilicate binders based on volcanic rocks [Poluchenie kompozicionnyh alyumosilikatnyh vyazhushchih na osnove vulkanicheskih porod]. Construction materials. 2006. No. 5. Pp. 51-53. (rus)
7. Kalashnikov V.I., Nesterov V.Yu., Khvastunov V.L. and others. Gloux slag building materials [Glinoshlakovye stroitel'nye materialy]. Under total. ed. IN AND. Kalashnikov. Penza: PGASA, 2000. 207 p. (rus)
8. Rakhimov R.Z., Magdeev U.Kh. Yarmakovsky V.N. Ecology, scientific achievements and innovations in the production of building materials on the basis of and with the use of technogenic raw materials [Ekologiya, nauchnye dostizheniya i innovacii v proizvodstve stroitel'nyh materialov na osnove i s primeneniem tekhnogennogo syr'ya]. M-ly mezhd. kongrecca «Nauka i innovacii v stroitel'stve SIB-2008», Sovremennye problemy stroitel'nogo materialovedeniya i tekhnologii. 2008. Pp. 441-448. (rus)
9. Rakhimova N.P. Composite slakkalochnye binders, mortars and concretes based on them [Kompozicionnye shlkoshchelochnye vyazhushchie, rastvory i betony na ih osnove]. Scientific Bulletin VGASU. Construction and architecture. 2008. No. 4 (12). Pp. 110-118. (rus)
10. Hargreaves D. The assessment of the current global situation in the cement industry. Report of Cemtech. Conference. 2000. Pp. 32-36.
11. Rakhimova N.P. The influence of additives on the brand of composite binder and the properties of concrete based on it [Vliyanie dobavok na marku kompozicionnogo vyazhushchego i svojstva betona na ego osnove]. Industrial and Civil Engineering. 2008. No. 5. Pp. 43-44. (rus)
12. Rakhimov R.Z., Khabibullina N.R., Rakhimov M.M., Sokolov A.A., Gataullin R.F. Concretes based on composite slag-alkaline binders [Betony na osnove kompozicionnyh shlakoshchelochnyh vyazhushchih]. Construction materials. 2005. No. 8. Pp. 16-17. (rus)
13. Sarsenbayev B.K., Estemesov Z.A., Aimenov Z.T., Sarsenbayev N.B., Aimenov A.Zh. Slag alkaline and concrete [Shlakoshchelochnye vyazhushchie i betony]. Shymkent: Publishing House SKSU them. M. Auezova, 2016. 360 p. (rus)
14. Bischembaew W., Sarsenbaew B., Altaewa S., Imanaliew K. Strukturbildung von Alkalischlacken - Bindemitteln auf Basis von Djambulischer Schlacken. 16. internationale Baustofftagung. ibausil, (20-23 September 2006 Bauhaus - Universität Weimar. BRD). Weimar 2006. Tagungsbericht-Band 1. S.1-1153-1155.
15. Sarsenbayev B.K. Technology of production of slag alkaline binders, concrete and products [Tekhnologiya proizvodstva shlakoshchelochnyh vyazhushchih, betonov i izdelij]. Science News of Kazakhstan. Almaty 2004. №1. Pp. 95-99. (rus)
16. Sarsenbayev B.K., Estemesov Z.A. Corrosion of reinforcement in solutions of activating components of slag-alkaline binders [Korroziya armatury v rastvorah aktiviziruyushchih komponentov shlakoshchelochnyh vyazhushchih]. Trudy Mezhd. nauchno-prakt. konf. problemy himicheskoj tekhnologii neorganicheskih, organiche¬skih, silikatnyh i stroitel'nyh materialov i podgotovki inzhenernyh kadrov. Shymkent, 2002. Vol. 2. Pp. 79-82. (rus)
17. Sarsenbayev B.K. The influence of technological factors of production on the properties of slag alkaline concrete [Vliyanie tekhnologicheskih faktorov proizvodstva na svojstva shlakoshchelochnogo betona]. Complex use of mineral raw materials. Almaty. 2004. No. 1. Pp. 90-93.
18. Sarsenbayev B.K. The strength of slag concrete in aggressive media [Prochnost' shlakoshchelochnyh betonov v agressivnyh sredah]. Industry of Kazakhstan. Almaty, 2003. No. 5 (20). 64 p.
19. Krivenko P.V., Gelevera A.G., Kavalerova E.S. Comparative study of the alkali-aggregate reaction in the OPC and alkaline OPC concrete. 16. International Bausrofftagung, Tagungsbericht (Weimar). 2006. P.2-0389-0398.