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Improving the thermal properties of lightweight concrete exterior walls

Goncharova Natalia / Ababakirova Zebuniso / Davlyatov Shokhrukh / Umarov Shodiljon / Mirzababayeva Sahiba

This article is devoted to the development of energy-efficient porous expanded clay concrete for exterior walls. Experimental data confirming the expediency of designing the optimal composition of porous concrete according to the general method of designing the optimal composition of the general theory of artificial building conglomerates (ABC) are presented. The presence of waste ash from thermal power engineering and a complex gas–forming agent based on the polymer K-9 reagent in the concrete provided increased durability, improved humidity and thermal engineering conditions of porous concrete.

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Improving the thermal properties of lightweight concrete exterior walls

Goncharova Natalia / Ababakirova Zebuniso / Davlyatov Shokhrukh / Umarov Shodiljon / Mirzababayeva Sahiba

This article is devoted to the development of energy-efficient porous expanded clay concrete for exterior walls. Experimental data confirming the expediency of designing the optimal composition of porous concrete according to the general method of designing the optimal composition of the general theory of artificial building conglomerates (ABC) are presented. The presence of waste ash from thermal power engineering and a complex gas–forming agent based on the polymer K-9 reagent in the concrete provided increased durability, improved humidity and thermal engineering conditions of porous concrete.

Improving the thermal properties of lightweight concrete exterior walls

Goncharova Natalia / Ababakirova Zebuniso / Davlyatov Shokhrukh / Umarov Shodiljon / Mirzababayeva Sahiba

This article is devoted to the development of energy-efficient porous expanded clay concrete for exterior walls. Experimental data confirming the expediency of designing the optimal composition of porous concrete according to the general method of designing the optimal composition of the general theory of artificial building conglomerates (ABC) are presented. The presence of waste ash from thermal power engineering and a complex gas–forming agent based on the polymer K-9 reagent in the concrete provided increased durability, improved humidity and thermal engineering conditions of porous concrete.

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Document information

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Title:

Improving the thermal properties of lightweight concrete exterior walls

Contributors:

Goncharova Natalia (author) / Ababakirova Zebuniso (author) / Davlyatov Shokhrukh (author) / Umarov Shodiljon (author) / Mirzababayeva Sahiba (author)

Published in:

E3S Web of Conferences, Vol 508, p 05002 (2024)

Publication date:

2024

ISSN:

DOI:

https://doi.org/10.1051/e3sconf/202450805002

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

Unknown

Keywords:

Environmental sciences , GE1-350

Metadata by DOAJ is licensed under CC BY-SA 1.0

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