Том 7 №5

Архив журнала Строительные материалы и изделия Том 7 №5

Construction and climatic certification of an area as a prerequisite for development of energy-efficient buildings and their external wall constructions

https://doi.org/10.58224/2618-7183-2024-7-5-1
Аннотация
Construction and climatic certification and, therefore, the orientation of buildings and building envelopes are important aspects of design and construction, especially in the conditions of specific climatic zones of the Republic of Kazakhstan. The main points that should be taken into account when determining climatic conditions, including in certification: the study of climatic conditions at the construction site, such as solar radiation, temperature, humidity, wind and other meteorological factors. This permits to select the appropriate building structures, materials and technologies. Based on climatic data, an energy saving strategy is developed to ensure an optimal level of comfort in buildings with minimal costs for heating and air conditioning, as well as to minimize overheating in the summer and provide optimal solar lighting, take into account the prevailing wind directions to minimize the negative impact of strong winds on structures and improve ventilation. The developed methodology of construction and climatic certification and factors of the natural and climatic environment, entered into the passports of the construction object, is the basis for the creation of design documentation of the Architecture section to ensure optimal conditions for the design, construction and operation of buildings and structures.
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Design of steel fiber-reinforced concrete for slip forming

https://doi.org/10.58224/2618-7183-2024-7-5-2
Аннотация
Introduction. Slip forming is one of the effective and promising methods of concrete mix casting. Development of slip forming technologies largely depends on accumulated experience and tools, one of which is the composition design methodology. The use of special types of concrete, such as fiber-reinforced concrete, requires additional knowledge and the creation of special technological tools. The purpose of the study: to develop a methodology for designing steel fiber-reinforced concrete composition for slip forming. Methods and materials. Known methods for designing concrete and steel fiber-reinforced concrete compositions are used. A methodology for designing steel fiber-reinforced concrete composition for slip forming has been developed, consisting of two stages: designing the matrix composition to ensure a given ultimate extensibility of the mixture; designing steel fiber-reinforced concrete based on a pre-obtained matrix composition. Cement CEM I 42.5N, medium-sized sand, crushed stone with particles size 5-10 mm and 36 mm length steel milling fiber are used. Results and discussion. According to the proposed methodology, the composition of steel fiber-reinforced concrete with specified properties was designed (ultimate extensibility not less than 100 mm/m; cone slump 1...4 cm; compressive strength not less than 40 MPa; flexural strength not less than 6.5 MPa). The results of laboratory tests of the obtained composition are presented. In terms of strength, workability and ultimate extensibility, the composition meets the technical specifications. Conclusions. The proposed methodology of designing the composition of steel fiber-reinforced concrete for slip forming has been successfully tested in laboratory and can be recommended for use in production.
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Mechanical characteristics of polymer composites based on epoxy resins with silicon carbide

https://doi.org/10.58224/2618-7183-2024-7-5-3
Аннотация
This study examines the impact of the type of base matrix (epoxy resin) and the addition of silicon carbide powder on the mechanical properties of polymer composite materials. To determine the compressive strength and elastic modulus of the polymer composites, samples were prepared using ED-20 epoxy-diane resin, cured with polyethylene polyamine. In order to eliminate the dependency of the results on specific commercial brands of resins, tests were conducted on polymers from different manufacturers. Mechanical tests were performed on samples of pure resin as well as on those containing reinforcing SiC particles. The chosen research methodology allowed for the determination of the relationship between the strength of the final polymer composites and the presence of silicon carbide powder. Polymer samples in the form of 20 mm cubic specimens were fabricated in custom-made formwork molds. Compressive strength tests were carried out using a REM-100-A-1 universal testing machine, and deformations were additionally measured using a non-contact video extensometer to calculate the elastic modulus. The study revealed a positive effect from the addition of 5 wt.% SiC to the epoxy-diane resins on the specified mechanical properties. The average increase in strength was 168%, while the elastic modulus increased by 26%. The introduction of the reinforcing additive also enabled a more consistent relationship between the loads and deformations of the samples based on epoxy resins from various domestic manufacturers, significantly enhancing their applicability in construction and other industries.
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Cauchy problem for modeling of unsteady mass transfer processes in an unbounded plate by the integral laplace transform method

https://doi.org/10.58224/2618-7183-2024-7-5-4
Аннотация
The article outlines the formulation and solution of the problem of physical and mathematical modeling of non-stationary processes of mass transfer of chemical components of the structure of reinforced concrete enclosing structures under the influence of factors (chemical, biological) of the operating environment. The theory of operational calculus (integral transformations) is used as a mathematical apparatus for jointly solving Cauchy and Laplace problems. To solve the problem and study the processes considered in the article, a dimensionless plate with a dimensionless concentration of aggressive components on its surface was chosen as an idealized model of the enclosing structure. Carbon dioxide, dissolved in the liquid and penetrating with it into the material of the structure through pores and microcracks, was chosen as an aggressive component acting on the enclosing structure. The final solutions of the considered boundary value problems are presented for the case of constant values of the kinetic coefficients of external and internal mass transfer. The results presented in this work can be used in the development of software for predicting the strength characteristics of enclosing structures operating in aggressive environments. Thanks to the obtained solutions to the problems of non-stationary mass transfer processes, using the example of the consequences of carbon dioxide corrosion, it is possible to consider the time period of the life cycle of buildings and structures, the timing of repair work with greater accuracy.
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Functionalization of one-component cement silicate paint

https://doi.org/10.58224/2618-7183-2024-7-5-5
Аннотация
The paper presents the results of a study devoted to expanding the functional properties of one-component cement-silicate paints based on white Portland cement, soluble sodium glass and a hardening retarder (sodium phosphate). Existing compositions, despite their exceptional performance qualities, are not able to provide the entire range of required functional characteristics. Therefore, in order to expand the areas of cement silicate paints application, additives based on aluminum powder and nano-sized titanium dioxide were introduced into the coating composition. This resulted in the increase in the electrical conductivity of the coating and made the paint self-cleaning due to photocatalysis.
The study showed that the introduction of nano-sized titanium dioxide particles into the paint composition provides the rapid degradation of organic pigments (within 2 days) due to the photocatalysis reaction occurring under the influence of ultraviolet solar radiation. The pigments are further removed due to precipitation. This helps to maintain the aesthetic properties of the paint even in high dust conditions, for example, in conditions of sandstorms, which are frequent in the African climate.
The introduction of aluminum powder into the paint composition reduces its electrical resistance (in a wet state) from 5.05 kOhm for the reference sample to 2.7 kOhm for the modified sample. The thickness of the applied paint was 350 microns. This can help the coating to absorb man-made electromagnetic radiation due to shielding, while preventing the accumulation of static electricity on the surface, which also contributes to less dust in the premises. In addition, the use of aluminum powder instead of traditional electrically conductive carbon-containing additives allows maintaining the aesthetically pleasant white color of the paint.
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Study of the concordance between various concrete deformation models and experimental data for uniaxial compression cases

https://doi.org/10.58224/2618-7183-2024-7-5-6
Аннотация
There are various equations describing concrete stress-strain curves, each yielding different theoretical curves. An important scientific question is achieving the best correspondence to experimental data. The Geniyev theory inherently includes equations for three components of stress and strain. In contrast, the Eurocode and the Russian Building Code equations are provided for uniaxial stress conditions. This paper presents a comparison of theoretical curves for uniaxial compression based on Eurocode equations, the Russian Building Code, and Geniyev theory with experimental results from tests on prism and cube samples. The analysis includes deviations of the maximum stress points of theoretical curves from the corresponding experimental data. Numerical analysis is provided for both stresses and strains. A distinguishing feature of this work compared to existing research on Geniyev theory equations is that they are presented in a resolute form, incorporating three parameters: concrete compressive strength, tensile strength, and the initial modulus of elasticity.
The importance of using secondary resources on the basis of industrial waste is understood by both governments of developed countries and business (production of Portland cement using ground metallurgical slag as a mineral additive at Novotroitsk, Magnitogorsk, Sterlitamak, Katav-Ivanovsk and other plants in the South Urals). The use of secondary raw materials requires the creation of technological infrastructure for processing of secondary raw materials, the costs of which can be quickly recouped due to the cheapness and availability of industrial secondary raw materials and freeing the territory from environmental pollution. In order to recoup the costs of the infrastructure, it is necessary to guarantee full compliance of the quality of pavement elements with the requirements of GOST R 59120-2021. Secondary raw materials have a great variety and laboratory analysis of the quality of pavement elements is required in order to design compositions with the best quality, satisfying all regulatory requirements. In our work the authors present the results of laboratory research and evaluation of the possibility of using clinker-free lime-slag binder based on the mineral product of soda production and metallurgical slags to strengthen and stabilize soils for their use in pavement structures in the construction of roads for various purposes and climatic zones.
It is experimentally shown that the addition of lime-slag binder in the amount of 8-10% of the dry weight of both cohesive (loamy soil, loamy sand) and non-cohesive (fine sand) soil allows to obtain reinforced soil with improved strength and elastic-deformative characteristics, which can be used instead of scarce natural crushed stone and gravel in the construction of underlying layers of pavements in the construction and reconstruction of highways. This technology can be used not only in the Russian Federation, but also in a number of other countries, including those with hot dry climates (e.g., the Republic of Egypt).
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Effect of powder morphology on the structure and properties of Al2O3 based coatings obtained by detonation spraying

https://doi.org/10.58224/2618-7183-2024-7-5-7
Аннотация
Aluminum oxide (Al2O3) remains a crucial material in the field of engineering ceramics, particularly in industrial applications. Notably, its transitional phases, in addition to the α-phase, demonstrate good properties. In this article the structure and properties of coatings obtained by detonation spraying from aluminum oxide powder with different production methods (fragmentation and spherical particle shape) and crystalline modification (α-Al2O3 and γ-Al2O3) but with similar average particle size were studied. The goal of the study was to investigate the influence of the morphology and phase composition of the powder on such properties of the coatings as microstructure, porosity, roughness and hardness. The results of the study showed that agglomerated spherical powder leads to low porosity of the coatings, while crushed fragmentation particles provide dense layers. In addition, the coating obtained using fragmentation powder showed higher hardness, and the surface had twice the roughness, compared to the coating applied using spheroidal powder. These results confirm the effect of the morphology of the original powder on the final properties and efficiency of the coatings. The study showed that the detonation spraying method allows for the efficient application of coatings from two types of Al2O3 powders with different morphology (spherical and fragmentation) and phase composition (γ-Al2O3 and α-Al2O3) but with similar particle sizes.
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Technical feasibility factors affecting urban environmental sustainability in decision-making: Erbil-Iraq

https://doi.org/10.58224/2618-7183-2024-7-5-8
Аннотация
This paper introduce decision-making model of sustainable urban development in Erbil city in Iraq. The decision-making model will includes higher-level policy orientation, grass-roots environmental protection, economic feasibility, and environmental pressure. The quantitative analyze of urban environmental sustainable development decision-making in prefecture-level. The data analysis collected from the annual government work report using seven specific factor, which set up according to the theoretical model framework. The results show that the driving force of sustainable development is mainly from top to bottom, the macro strategy of the central government and other upper-level governments is the core factor of sustainable transformation, and the demand for sustainable development of the grassroots people needs to continue to increase. In addition, prominent environmental issues have attracted the attention and actions of local governments, but urban governments still regard sustainable development as a distributive policy to a large extent, and the awareness or conditions for seeking economic welfare through environmental governance have not yet achieved.
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Technical aesthetics of stained glass panels for the modern architectural paradigm of Southern Russia

https://doi.org/10.58224/2618-7183-2024-7-5-9
Аннотация
The construction sector consumes more than half of the energy generated in Russia. Therefore, practical application of energy-efficient and aesthetic construction products is highly required. The article aims at looking into the way to enhance characteristics of the double-glazed window, which is an energy-saving product in a building that regulates the amount of light energy indoors and affects the amount of heat loss in winter. Until now, this function has been the main one for double-glazed windows. Secondary, but no less important, is the aesthetic appearance of the double-glazed window. The study is based on the experimental data obtained through the ramp-hold programme according to COE 96 as well as through the comprehensive analysis of six glass types manufactured by Oceanside Glass & Tile®. As a result, the study discusses characteristics of stained glass that can be used for Tiffany technique inserts in a window opening. Such stained glass panels throughout the entire historical path have demonstrated sublime beauty and lightness, both indoors and outdoors. Modern technologies allow us to take the art of stained glass and its adaptation in modern double-glazed windows to a new level. Finally, special attention is paid to the aesthetics of stained glass panels for the modern architectural paradigm of Southern Russia.
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Assessment of the influence of building parameters on the urban heat island in the districts of Moscow

https://doi.org/10.58224/2618-7183-2024-7-5-10
Аннотация
Large cities, as financial centres, attract a dense adult population, leading to a high demand for housing. This growth requires urban expansion and increased building density, which disrupts the ecosystem and gives rise to a concentrated urban heat island (UHI). In a study conducted in Moscow, a numerical climate simulation model was used to explore the relationship between urban indices, specifically the building height-to-width ratio (H/W), sky view factor (SVF), and UHI intensity. The results indicated significant impacts of both H/W and SVF on UHI. More accurate predictions were achieved by adjusting coefficients in the Oke model using non-linear regression of simulated H/W and heat island intensity. These findings highlight the crucial role of urban morphology in UHI formation and development, providing a scientific basis for mitigating UHI impacts through urban planning strategies. While it is challenging to generalise a formula for calculating UHI intensity due to the diversity of urban forms, our research method offers a valuable approach for similar studies in other cities.
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