Thermal conductivity of aerated concrete based on response surface method

Anuar Ulykbanov; Eldar Sharafutdinov; Elmira Ramazanova; Chang Seon Shon

doi:10.4028/www.scientific.net/MSF.917.342

Thermal conductivity of aerated concrete based on response surface method

Anuar Ulykbanov, Eldar Sharafutdinov, Elmira Ramazanova, Chang Seon Shon

Department of Civil and Environmental Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

5 Citations (Scopus)

Abstract

Aerated concrete (AC) is widely used in the construction industry due to lightweight and advanced thermal properties. In this research, thermal conductivity (λ) of non-autoclaved AC was characterized with Response Surface Methodology (RSM). The effect of fine aggregates with different Al₂O₃ contents on the minimal λ value was analyzed using RSM. Test results show that sand with higher Al₂O₃ content has more influence on lower λ of AC. The regression models were significant and applicable to analyzation and prediction of λ of AC with good accuracy.

Original language	English
Title of host publication	Material Science and Engineering Technology VI - 6th ICMSET 2017
Editors	Ramesh K. Agarwal
Publisher	Trans Tech Publications
Pages	342-346
Number of pages	5
ISBN (Print)	9783035712131
DOIs	https://doi.org/10.4028/www.scientific.net/MSF.917.342
Publication status	Published - Jan 1 2018
Event	6th International Conference on Material Science and Engineering Technology, ICMSET 2017 - Seoul, Korea, Republic of Duration: Oct 20 2017 → Oct 22 2017

Publication series

Name	Materials Science Forum
Volume	917 MSF
ISSN (Print)	0255-5476

Conference

Conference	6th International Conference on Material Science and Engineering Technology, ICMSET 2017
Country	Korea, Republic of
City	Seoul
Period	10/20/17 → 10/22/17

Keywords

Al2O3 content in sand
Non-autoclaved aerated concrete
Porosity
Response surface methodology
Thermal conductivity

ASJC Scopus subject areas

Materials Science(all)
Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering

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Ulykbanov, A., Sharafutdinov, E., Ramazanova, E., & Shon, C. S. (2018). Thermal conductivity of aerated concrete based on response surface method. In R. K. Agarwal (Ed.), Material Science and Engineering Technology VI - 6th ICMSET 2017 (pp. 342-346). (Materials Science Forum; Vol. 917 MSF). Trans Tech Publications. https://doi.org/10.4028/www.scientific.net/MSF.917.342

Thermal conductivity of aerated concrete based on response surface method. / Ulykbanov, Anuar; Sharafutdinov, Eldar; Ramazanova, Elmira; Shon, Chang Seon.

Material Science and Engineering Technology VI - 6th ICMSET 2017. ed. / Ramesh K. Agarwal. Trans Tech Publications, 2018. p. 342-346 (Materials Science Forum; Vol. 917 MSF).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Ulykbanov, A, Sharafutdinov, E, Ramazanova, E & Shon, CS 2018, Thermal conductivity of aerated concrete based on response surface method. in RK Agarwal (ed.), Material Science and Engineering Technology VI - 6th ICMSET 2017. Materials Science Forum, vol. 917 MSF, Trans Tech Publications, pp. 342-346, 6th International Conference on Material Science and Engineering Technology, ICMSET 2017, Seoul, Korea, Republic of, 10/20/17. https://doi.org/10.4028/www.scientific.net/MSF.917.342

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abstract = "Aerated concrete (AC) is widely used in the construction industry due to lightweight and advanced thermal properties. In this research, thermal conductivity (λ) of non-autoclaved AC was characterized with Response Surface Methodology (RSM). The effect of fine aggregates with different Al2O3 contents on the minimal λ value was analyzed using RSM. Test results show that sand with higher Al2O3 content has more influence on lower λ of AC. The regression models were significant and applicable to analyzation and prediction of λ of AC with good accuracy.",

keywords = "Al2O3 content in sand, Non-autoclaved aerated concrete, Porosity, Response surface methodology, Thermal conductivity",

author = "Anuar Ulykbanov and Eldar Sharafutdinov and Elmira Ramazanova and Shon, {Chang Seon}",

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N2 - Aerated concrete (AC) is widely used in the construction industry due to lightweight and advanced thermal properties. In this research, thermal conductivity (λ) of non-autoclaved AC was characterized with Response Surface Methodology (RSM). The effect of fine aggregates with different Al2O3 contents on the minimal λ value was analyzed using RSM. Test results show that sand with higher Al2O3 content has more influence on lower λ of AC. The regression models were significant and applicable to analyzation and prediction of λ of AC with good accuracy.

AB - Aerated concrete (AC) is widely used in the construction industry due to lightweight and advanced thermal properties. In this research, thermal conductivity (λ) of non-autoclaved AC was characterized with Response Surface Methodology (RSM). The effect of fine aggregates with different Al2O3 contents on the minimal λ value was analyzed using RSM. Test results show that sand with higher Al2O3 content has more influence on lower λ of AC. The regression models were significant and applicable to analyzation and prediction of λ of AC with good accuracy.

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KW - Response surface methodology

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Thermal conductivity of aerated concrete based on response surface method

Abstract

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Keywords

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