In the article on the basis of cause-effect relationships in cement, which are both direct and reverse in nature, it is revealed that the compressive strength of concrete largely depends on the reactivity of the anhydrous compounds obtained during firing, the fineness of grinding, the amount of free lime and other oxides, as well as a great influence on the quality of cement has a fine grinding of raw materials. Results of calculation of standard deviations. The models are obtained on the basis of the results of chemical analysis and individual expressive data of physical and mechanical character, on the basis of diffractograms and the same data of physical and chemical character.
References. 1. Alishev S. A. Management of the process of wet grinding of raw materials. - Materials XI -international scientific and theoretical conference. Dushanbe.: 2018. 45. 2. Alishev S. A. Adaptive predictive model of the cement quality. journal. Information technologies of modeling and control. M.: Publishing house "Scientific book", 2018, 111. 3. Taimasov B. T. Portland cement production Technology. Shymkent: publishing House of SKSU, 2003. - 297. 4. Alishev S. A. Identification of the phase composition of the mixture using x-ray crystallography and PC. Modern problems and their solutions of information and communication technologies and telecommunications. Collection of reports. Part II. Fergana: 2019.-523-525. 5. Caijun Shi, Della Roy, Pavel Krivenko. Alkali-Activated Cements and Concretes. Taylor&Francis imprint. New York.2006.372. 6. Simulation modeling of technological processes of heat treatment in the environment of RDO/ Ismoilov M. I., Umaraliev R. S., Pirov F. S.//Scientific notes of Orel state University. Series: Natural, technical and medical Sciences №3(41), 2011.-S. 47-56. 7. Analysis of technologies of heat treatment of cement clinker /Nikolaev A. B., Ismoilov M. I., Pirov F. S. // Analytical and simulation modeling and situational management in industry, construction and education: Sat. nauch. Tr. M., 2008, MADI (GTU). – p. 19-24. 8. Vtyurin, V. A. Automated system of technological process control fundamentals process control system. Textbook. St. Petersburg 2006. 151 PP. 9. Kirillov A. N. Management of multistage technological processes. Vestnik St. Petersburg State University. Cep. 10, 2006, Vol.4.p. 127-131. 10. Vergun A. P., Savostina N. V. Optimization of separation processes. – Tomsk, 2002. – 36. 11. Lugovskoy V. I. Sinyavsky K. S. Dubs R. V. Mathematical modeling of chemical-technological processes. – Odessa: the income statement, 2004. – 35.
Sh., Alishev and Z., Ortikov
"THE CAUSAL RELATIONSHIPS IN THE MANAGEMENT PROCESS OF CEMENT PRODUCTION,"
Problems of Architecture and Construction: Vol. 2
, Article 2.
Available at: https://uzjournals.edu.uz/samgai/vol2/iss3/2