Self-compacting concrete made with the use of local raw materials and industrial wastes
Енджиевская, И. Г.
Кафедра строительных материалов и технологии строительства
Journal Name:MATEC Web of Conferences
Journal Quartile in Scopus:без квартиля
Journal Quartile in Web of Science:без квартиля
Bibliographic Citation:Енджиевская, И. Г. Self-compacting concrete made with the use of local raw materials and industrial wastes [Текст] / И. Г. Енджиевская, Д. Шваенко, К. Андриянова // MATEC Web of Conferences: 6th International Scientific Conference on Integration, Partnership and Innovation in Construction Science and Education, IPICSE. — 2018. — Т. 251. — С. 01037
The subject matter of the research: fine-dispersed mineral ad-ditives based on raw materials and industrial wastes for the production of self-compacting concrete with prescribed high physical and mechanical characteristics, the use of which will be economically more justified by re-ducing energy consumption, evaluating their contact with superplasticizers. The aim: the analysis of mineral additives based on local raw materials and industrial wastes combined with a superplasticizer for the production of self-compacting concrete with high physical and mechanical properties. Materials and methods: scanning electron microscope JEOL JSM-6490 LV, X-ray fluorescence spectrometer for elemental analysis ARL OPTIM, X, ThermoTehno, Switzerland; gas analyzer Gank 4. The parameters to study are as follows: sedimentative and chemical composition of mineral additives, molding properties of a concrete mixture, mechanical properties of concrete. The result: mineral additives with the use of local raw materials and in-dustrial wastes have been analyzed, optimal costs have been selected for the optimal hydration reaction behavior and the formation of a denser structure of self-compacting concrete. Conclusions: studies of finely dispersed mineral additives in combination with a superplasticizer have been carried out in order to obtain self-compacting concrete with specified high physical and mechanical proper-ties.