*Professor, Department “Construction and Installation of Engineering Communications” Candidate of Technical Sciences, NAMISI, Uzbekistan, Email id: kh.alinazarov@mail.ru
**Associate professor, Department “Methods of vocational Training” Candidate of Physical and Mathematical Sciences, NAMSU, Uzbekistan, Email id: ibroxim.1958@mail.ru
***Teacher, Department Methods of Vocational Training, NAMSU, Uzbekistan, Email id: maksadibroximov@mail.ru
Online published on 27 August, 2020.
In order to eliminate the main shortcomings of the existing scientific and technical solutions for the use of solar energy in the production of building materials, studies were conducted within the framework of a single generalizing energy and resource-saving technology of materials of a multistructure structure. The schemes for controlling the parameters of the coolant in combined solar heat-generating plants are considered. The possibility of energy and resource saving in the production of multicomponent building materials with a multistructure structure by qualitatively and quantitatively controlling the parameters of the coolant and operating modes in combined solar heat-generating installations is shown. The structure-forming factors and their influence on the technical and strength properties of a highly filled cast ash-cement mixture are considered. As a result of studies, it was found that the dispersion process provides free access of water to ash and cement particles, which leads to an increase in the number of hydrated neoplasms and a deeper hydration process.
Solar Energy, Hydration, Phase Composition, Structure Formation, Ash-Cement Materials, Gel Treatment, Variable Factors, Regression Model, Optimal Technology, Thermochemical Treatment, Heat Carrier, Hydrophysical, Plastometric And Thixotropic Indicators, Pseudo-Optimal Zone