Abstract
At present, there is a steady increase in the volume of housing construction in the Russian Federation. The modern trends in the field of energy and resource saving determine the need of the use of efficient building materials that ensure the safety, comfort and minimum cost of housing construction. Among the materials, often used for erecting of fencing structures, it is possible to note effective small-piece elements (ceramic and light-weight concrete units, etc.). To ensure the solidity of such structures, it is necessary to use the masonry mortars whose properties correspond to those of the main wall material. The existing dry mixes for obtaining of such mortars are expensive and often do not meet the minimum physical-and-mechanical and exploitation requirements. The solution of this problem is the usage of the hollow ceramics (aluminosilicate) microspheres as a filler for such mixes. The article presents the results of studies of the main physical-and-mechanical and exploitation characteristics of dry masonry mixes with hollow ceramics microspheres modified with various chemical additives. The effect of the compounding factors on the average density and strength of dry masonry mixes was studied. The compositions have been optimized by the methods of mathematical planning.
Highlights
The housing construction is one of the largest parts of the construction industry in our country and since the 2000s there has being a significant increase in the construction of residential areas
According to the data published by the Research Institute of Building Physics, in the Russian Federation the buildings consume up to 45% of the total volume of produced energy, 18 ... 45% of which are the heat losses through external walls [1]
The aim of the research was the development and study of the properties of modified dry masonry mixes with hollow ceramics microspheres (CMS)
Summary
The housing construction is one of the largest parts of the construction industry in our country and since the 2000s there has being a significant increase in the construction of residential areas. 45% of which are the heat losses through external walls [1]. An important factor in assessing the heat-shielding properties of the fencing structure is the coefficient of thermal uniformity. This coefficient takes into account the presence of thermally heterogeneous fragments in the fencing structure – the “cold bridges” [2]. Their presence leads to an increase in heat losses through the fencing structures, as well as to the risk of condensate formation in the zone of heat conducting inclusions
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
