Effect of Elevated Temperature on the Behavior of Amorphous Metallic Fibre-Reinforced Cement and Geopolymer Composites

被引:6
|
作者
Shaikh, Faiz Uddin Ahmed [1 ]
Kahlon, Narwinder Singh [1 ]
Dogar, Attiq Ur Rahman [2 ]
机构
[1] Curtin Univ, Sch Civil & Mech Engn, Perth, WA 6102, Australia
[2] Univ Cent Punjab, Dept Civil Engn, Lahore 54000, Pakistan
关键词
amorphous metallic fibres (AMF); geopolymer concrete; elevated temperature; residual strength; compressive strength; flexural strength; scanning electron microscope (SEM); FLY-ASH GEOPOLYMER; RESIDUAL FRACTURE ENERGY; HIGH-STRENGTH CONCRETE; MECHANICAL-PROPERTIES; HIGH-PERFORMANCE; COMPRESSIVE BEHAVIOR; THERMAL-BEHAVIOR; FLEXURAL BEHAVIOR; PORTLAND-CEMENT; BASALT-FIBER;
D O I
10.3390/fib11040031
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
To improve the tensile, flexural, and ductility properties of geopolymer composites, amorphous metallic fibres (AMF) are used to reinforce these composites, and the behavior of these composites at elevated temperatures has been assessed in this study. Four types of composites, i.e., cement, reinforced cement, geopolymer, and reinforced geopolymer composites have been prepared. The composites have been reinforced using AMF with a fibre volume fraction of 0.75%. The composites have been assessed for change in mass loss, cracking, compressive strength, and flexural strength at four elevated temperatures of 200 degrees C, 400 degrees C, 600 degrees C, and 800 degrees C, and conclusions have been drawn concerning these composites. The results have shown that an increase in temperature has an adverse effect on these composites, and geopolymer composites exhibit higher performance than their counterpart cement composites at elevated temperatures. The mass loss and surface cracking were significantly lower in geopolymer composites, and the fibre reinforcement had a negligible effect on mass loss. Also, the residual compressive and flexural strength of reinforced geopolymer composites was significantly higher than that of the reinforced cement composites. In addition, scanning electron microscopic images also showed that even at higher temperatures, the geopolymer matrix is present on the AMF fibre, which results in higher residual strength than the cement composites in which a negligible amount of matrix is present on the fibres.
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页数:18
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