Effect of different conditions on mechanical properties of geopolymer mortar at low temperature

Aiming at the problems of insufficient comprehensive performance, heavy pollution, and poor low-temperature applicability of pavement repair materials, a kind of geopolymer pavement repair material suitable for the low-temperature environment was prepared. Compressive and flexural tests were carried...

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Bibliographic Details
Published inConstructional Engineering and Ecological Environment pp. 180 - 185
Main Authors Yan, Lv, Bo, Jiang, Zhihang, Wang, Tengjiao, Wang, Wei, Xia, Lijun, Qin
Format Book Chapter
LanguageEnglish
Published CRC Press 2024
Edition1
Subjects
Cement Sand Ratio
MIDAS
Sodium Hydroxide Concentration
Sodium Silicate
Low Carbon Dioxide Emissions
Geopolymer Materials
ISO Method
Geopolymer Mortar
Fluoride Removal
Yangtze River
Compressive Strength
Steel Concrete Composite Beam
Broad Application Prospects
Main Raw Material
Low Temperature Environment
Flexural Strength
Low Early Strength
Alkaline Activator
High Speed Railway Stations
Early Strength
Sodium Hydroxide Solution
Repair Materials
Main Chemical Components
Test Pieces
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Summary:Aiming at the problems of insufficient comprehensive performance, heavy pollution, and poor low-temperature applicability of pavement repair materials, a kind of geopolymer pavement repair material suitable for the low-temperature environment was prepared. Compressive and flexural tests were carried out on geopolymer mortar to explore the early strength performance of different geopolymer mortar under a low-temperature curing environment and the effects of solution cement ratio and cement sand ratio on the basic working performance and mechanical properties of geopolymer mortar at low-temperature environment were analyzed in depth. The results show that the early mechanical properties of slag-based geopolymer mortar are better than those of fly ash-based geopolymer mortar at a low-temperature environment; With the increase of cement-sand ratio, the compressive strength and flexural strength of geopolymer mortar increase continuously; With the increase of solution-cement ratio, the strength first increases and then decreases. Finally, the mechanical properties of geopolymer mortar are the best when the cement-sand ratio is 1:2, and the solution-cement ratio is 0.55. The test can provide a reference for further research and the application of geopolymer mortar.
ISBN:9781032531984
1032531983
9781032532004
1032532009
DOI:10.1201/9781003410843-25