The role of individual reactive components and process variables such as molarity and temperature on alkaline activation of different low-calcium fly ash is explored. The oxide ratios in the activated system, based on the total silica (total SiO2) in the system consisting of the reactive silica contributed by fly ash and the reactive alumina in fly ash are shown to provide consistent results for achieving the highest strength. For a given total SiO2 content in the system, an increase in the sodium content above a certain dosage does not influence the ultimate compressive strength. An optimum (total SiO2) to Na2O ratio, equal to 2.66 is established for achieving maximum strength. The role of temperature within the range of 60°C-85°C is not s...
The compressive strength of fly ash-based geopolymer mortar (FBGM) made from five different sources ...
The role of reactive alumina and process varia bles such as sodium content and molar...
The development of environmentally friendly alkaline-activated materials (AAMs) holds promise, as AA...
An experimental investigation of fly ash activated with sodium-based alkali-silicate activating solu...
The compressive strength achieved in alkali-activated low-calcium fly ash depends on the total react...
Fly ash-based geopolymers are being developed as sustainable alternate binders for producing concret...
The roles of temperature and curing periods on product formation and strength gain in alkali activat...
The broad objective of the work presented in this thesis is to consistently produce an aluminosilic...
The variation of the raw materials is critical for the wide application of alkali-activated fly ash/...
Compressive strength of six types of geopolymer pastes made from different fly ash sources were stud...
Alkali activation of fly ash can be considered as one of the more promising alternative systems to t...
An evaluation of strength-gain in binders with equal mass proportions of low-calcium fly ash and sla...
Alkali-activated fly ash (AAF) is a promising material that exhibits comparable material properties ...
The use of fly ash in geotechnical engineering depends greatly on its pozzolanic reactivity. Though ...
This paper investigates the effect of calcium-rich compounds on setting time and compressive strengt...
The compressive strength of fly ash-based geopolymer mortar (FBGM) made from five different sources ...
The role of reactive alumina and process varia bles such as sodium content and molar...
The development of environmentally friendly alkaline-activated materials (AAMs) holds promise, as AA...
An experimental investigation of fly ash activated with sodium-based alkali-silicate activating solu...
The compressive strength achieved in alkali-activated low-calcium fly ash depends on the total react...
Fly ash-based geopolymers are being developed as sustainable alternate binders for producing concret...
The roles of temperature and curing periods on product formation and strength gain in alkali activat...
The broad objective of the work presented in this thesis is to consistently produce an aluminosilic...
The variation of the raw materials is critical for the wide application of alkali-activated fly ash/...
Compressive strength of six types of geopolymer pastes made from different fly ash sources were stud...
Alkali activation of fly ash can be considered as one of the more promising alternative systems to t...
An evaluation of strength-gain in binders with equal mass proportions of low-calcium fly ash and sla...
Alkali-activated fly ash (AAF) is a promising material that exhibits comparable material properties ...
The use of fly ash in geotechnical engineering depends greatly on its pozzolanic reactivity. Though ...
This paper investigates the effect of calcium-rich compounds on setting time and compressive strengt...
The compressive strength of fly ash-based geopolymer mortar (FBGM) made from five different sources ...
The role of reactive alumina and process varia bles such as sodium content and molar...
The development of environmentally friendly alkaline-activated materials (AAMs) holds promise, as AA...