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Research Article | Open Access

Molecular structure and thermal conductivity of hydrated sodium aluminosilicate (N-A-S-H) gel under different Si/Al ratios and temperatures: A molecular dynamics analysis

Yun-Lin Liu1Si-Yu Ren1Dong-Hua Wang1Ding-Wei Yang1Ming-Feng Kai2Dong Guo3( )
College of Civil Engineering, Anhui Jianzhu University, Hefei 230601, China
School of Mechanics and Construction Engineering, Jinan University, Guangdong 510632, China
School of Civil Engineering and Transportation, Guangzhou University, Guangdong 510006, China
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Abstract

Geopolymer materials have emerged as promising alternatives to ordinary Portland cementitious materials, offering more sustainable solutions for concrete production. Sodium aluminosilicate hydrate (N-A-S-H) serves as a crucial component in geopolymer concrete, while its thermomechanical properties at elevated temperatures remain relatively underexplored. This study examined the molecular structural variations of N-A-S-H within a temperature range of 300–900 K. The influence of different Si/Al ratios and temperature levels on molecular characteristics and atomic mobility was analyzed using the radial distribution function (RDF) and mean square displacement (MSD). The thermal conductivity of the N-A-S-H gel was determined using the Müller-Plathe reverse nonequilibrium molecular dynamics (RNEMD) method. Results show that as temperature increases, the mobility of Si and Al atoms is enhanced, and the thermal conductivity of N-A-S-H gel ranges from 1.431 to 1.857 W/m/K. The thermal conductivity increases with higher Si/Al ratios and elevated temperatures, suggesting decreased thermal insulation performance at higher Si/Al ratios and temperatures.

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AIMS Materials Science
Pages 258-277

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Cite this article:
Liu Y-L, Ren S-Y, Wang D-H, et al. Molecular structure and thermal conductivity of hydrated sodium aluminosilicate (N-A-S-H) gel under different Si/Al ratios and temperatures: A molecular dynamics analysis. AIMS Materials Science, 2025, 12(2): 258-277. https://doi.org/10.3934/matersci.2025014

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Received: 05 January 2025
Revised: 13 March 2025
Accepted: 24 March 2025
Published: 15 April 2025
©2025 the Author(s), licensee AIMS Press.

This is an open access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0)