Topics
fly ashCompany
silica fumeMineral
x-ray diffractionSoftware
compressive strengthArchitectural structure
The compressive strength of alkali-activated slag (AAS) paste can be adversely affected by temperature. AAS paste loses its strength when exposed to 50°C for 24 hours. The objective of the current investigation is to evaluate two different mineral admixtures, i.e. fly ash and silica fume, in preventing AAS paste from strength loss. The effect of the above admixtures at various dosages on strength loss was assessed by measuring the retention of compressive strength of samples after exposed to 50°C. Results indicate that the admixtures reduced strength loss. Compared with the fly ash, the silica fume performs better at preventing AAS paste from strength loss. After exposure to 50°C, the use of silica fume to replace 15% of slag reduces the st...
The strength and microstructural evolution of two alkali-activated slags, with distinct alumina cont...
An evaluation of strength-gain in binders with equal mass proportions of low-calcium fly ash and sla...
The results of ground granulated blast furnace slag (GGBS) tests in alkali-activated systems show th...
The compressive strength of alkali-activated slag (AAS) paste can be adversely affected by temperatu...
Alkali-activated slag can totally disintegrate when exposed to 50 C. This paper presents a study of ...
Alkali-activated slag can totally disintegrate when exposed to 50 °C. This paper presents a study of...
Alkali-activated slag can totally disintegrate when exposed to 50°C. This paper presents a study of ...
This paper presents a study on the evolution of strength and alteration microstructure of alkali-act...
Although elevated temperature curing can increase the compressive strength of alkali-activated morta...
This paper presents a study on the evolution of strength and alteration microstructure of alkaliacti...
Tests reported in this paper show that alkali-activated slag paste (AASP) can totally disintegrate w...
This study reports the changes in the compressive strength and shrinkage property of alkali-activate...
This paper presents the results of an experimental study performed to investigate the effect of acti...
In the field of alkali activated materials, weathered fly ash represents a scarcely explored edge, s...
The aim of this study is to investigate the strengths and drying shrinkage of alkali-activated slag ...
The strength and microstructural evolution of two alkali-activated slags, with distinct alumina cont...
An evaluation of strength-gain in binders with equal mass proportions of low-calcium fly ash and sla...
The results of ground granulated blast furnace slag (GGBS) tests in alkali-activated systems show th...
The compressive strength of alkali-activated slag (AAS) paste can be adversely affected by temperatu...
Alkali-activated slag can totally disintegrate when exposed to 50 C. This paper presents a study of ...
Alkali-activated slag can totally disintegrate when exposed to 50 °C. This paper presents a study of...
Alkali-activated slag can totally disintegrate when exposed to 50°C. This paper presents a study of ...
This paper presents a study on the evolution of strength and alteration microstructure of alkali-act...
Although elevated temperature curing can increase the compressive strength of alkali-activated morta...
This paper presents a study on the evolution of strength and alteration microstructure of alkaliacti...
Tests reported in this paper show that alkali-activated slag paste (AASP) can totally disintegrate w...
This study reports the changes in the compressive strength and shrinkage property of alkali-activate...
This paper presents the results of an experimental study performed to investigate the effect of acti...
In the field of alkali activated materials, weathered fly ash represents a scarcely explored edge, s...
The aim of this study is to investigate the strengths and drying shrinkage of alkali-activated slag ...
The strength and microstructural evolution of two alkali-activated slags, with distinct alumina cont...
An evaluation of strength-gain in binders with equal mass proportions of low-calcium fly ash and sla...
The results of ground granulated blast furnace slag (GGBS) tests in alkali-activated systems show th...
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