INVESTIGATION OF THE THERMAL CONDUCTIVITY OF AUTOCLAVED AERATED CONCRETE

Ryabkov Maksim; Baranova Al'bina; Skulin Aleksandr Sergeevich; Kocyr' Alina Il'inichna

doi:doi:10.36629/2686-9896-2021-1-1-195-196

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INVESTIGATION OF THE THERMAL CONDUCTIVITY OF AUTOCLAVED AERATED CONCRETE

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INVESTIGATION OF THE THERMAL CONDUCTIVITY OF AUTOCLAVED AERATED CONCRETE

Journal: MODERN TECHNOLOGIES AND SCIENTIFIC AND TECHNOLOGICAL PROGRESS Volume 2021 № 1 , 2022

Rubrics: CONSTRUCTION AND TRANSPORT

GRNTI 67.01 Общие вопросы строительства

Ryabkov Maksim ¹

Baranova Al'bina ²

Skulin Aleksandr Sergeevich

Kocyr' Alina Il'inichna

Author and publication information

Authors:

1. Federal State Funded Educational Establishment of Higher Education «Angarsk State Technical University»

Russian Federation

2. Angarsk state technical university (kafedra promyshlennogo i grazhdanskogo stroitel'stva, docent)

Irkutsk region, Russian Federation

Type:

Article

DOI:

https://doi.org/10.36629/2686-9896-2021-1-1-195-196

Pages:

from 195 to 196

Status:

Published

Received:

12.05.2021

Accepted:

10.01.2022

Published:

10.01.2022

Subject area:

67.01

Language:

Russian

Keywords:

coefficient of thermal conductivity, autoclaved aerated concrete

Abstract and keywords

Abstract (English):
The results of measuring the thermal conductivity coefficients of autoclaved aerated concrete grades D450 and D600 in the dry, water-saturated and frozen state are presented.

Keywords:
coefficient of thermal conductivity, autoclaved aerated concrete

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References

1. Baranova A.A. Teploprovodnost' i termicheskoe soprotivlenie neavtoklavnogo penobetona na osnove mikrokremnezema // Izvestiya vuzov. Investicii. Stroitel'stvo. Nedvizhimost'. 2020. T. 10. № 3 (34). S. 370-377.

2. Ryabkov I.V., Baranova A.A. Teploprovodnost' i termicheskoe soprotivlenie sloya neavtoklavnogo penobetona na osnove mikrokremnezema // Sovremennye tehnologii i nauchno-tehnicheskiy progress. 2020. T. 1. № 7. S. 185-186.

3. Ryabkov I.V., Baranova A.A. Sravnitel'nyy analiz rezul'tatov izmereniy teploprovodnosti penobetonov na osnove mikrokremnezema // Sovremennye tehnologii i nauchno-tehnicheskiy progress. 2020. T. 1. № 7. S. 183-184.

4. Baranova A., Ryabkov I. Investigation of thermal conductivity of nonautoclaved foam concrete based on microsilica // V sbornike: IOP Conference Series: Materials Science and Engineering. New Technologies and Special-Purpose Development Priorities. 2019. S. 012010.

5. Ryabkov I.V., Baranova A.A. Vliyanie sredney plotnosti i vlazhnosti penobetona na osnove mikrokremnezema na koefficient teploprovodnosti // Sovremennye tehnologii i nauchno-tehnicheskiy progress. 2019. T. 1. S. 204-205

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