The paper presents the results of research of high-strength geopolymer mortars, prepared from two types of siliceous fly ash. Sodium hydroxide and mixtures of sodium hydroxide and sodium silicate in the form of solutions were used as activators. The activator was added in amounts ranging from 6 to 15% NaOH in relation to the ash mass. After preparation, the mortars were cured at the temperature of 60 degrees C, 80 degrees C or 100 degrees C for various times, from 24 hours to 7 days. Increasing the addition of sodium or a higher curing temperature increase the flexural and compressive strength of the tested mortars. The best results - compressive and flexural strength of 100 MPa and 20 MPa, respectively, were obtained for mortar activated w...
The compressive strength of fly ash-based geopolymer mortar (FBGM) made from five different sources ...
This literature survey explores the strength and durability aspects of geopolymer mortar that incorp...
This paper reports the fresh properties and compressive strength of high calcium alkali-activated fl...
The paper presents the results of research of high-strength geopolymer mortars, prepared from two ty...
The cement industry accounts for about 7% of all CO2 emissions caused by humans. Therefore, it is ne...
For the production of alkali-activated binders, the use of commercially available activators, partic...
It is known that transport properties of porous materials were important in terms of its durability ...
In this laboratory work, high compressive and flexural tensile strength of alkali activated fly ash ...
This paper reports the influence of different curing temperatures, calcium content and different typ...
Fly ash-based geopolymer mortar normally achieves expected properties by heat curing. This becomes o...
The aim of this work is to study the influence of the type of activator on the formulation of geopol...
This study aims to provide the experimental data on the sulphate and acid performance of geopolymer ...
This paper reports the fresh properties and compressive strength of high calcium alkali-activated fl...
Compressive strength development of class F fly ash geopolymer activated by sodium hydroxide wa...
This paper investigates the effects of curing conditions on a high-strength geopolymer material synt...
The compressive strength of fly ash-based geopolymer mortar (FBGM) made from five different sources ...
This literature survey explores the strength and durability aspects of geopolymer mortar that incorp...
This paper reports the fresh properties and compressive strength of high calcium alkali-activated fl...
The paper presents the results of research of high-strength geopolymer mortars, prepared from two ty...
The cement industry accounts for about 7% of all CO2 emissions caused by humans. Therefore, it is ne...
For the production of alkali-activated binders, the use of commercially available activators, partic...
It is known that transport properties of porous materials were important in terms of its durability ...
In this laboratory work, high compressive and flexural tensile strength of alkali activated fly ash ...
This paper reports the influence of different curing temperatures, calcium content and different typ...
Fly ash-based geopolymer mortar normally achieves expected properties by heat curing. This becomes o...
The aim of this work is to study the influence of the type of activator on the formulation of geopol...
This study aims to provide the experimental data on the sulphate and acid performance of geopolymer ...
This paper reports the fresh properties and compressive strength of high calcium alkali-activated fl...
Compressive strength development of class F fly ash geopolymer activated by sodium hydroxide wa...
This paper investigates the effects of curing conditions on a high-strength geopolymer material synt...
The compressive strength of fly ash-based geopolymer mortar (FBGM) made from five different sources ...
This literature survey explores the strength and durability aspects of geopolymer mortar that incorp...
This paper reports the fresh properties and compressive strength of high calcium alkali-activated fl...