AbstractAluminosilicate materials can be transformed into very compact binding material by the process called alkaline activation. The paper presents results of alkaline activation of fly ash and waste fine-grained brick body. Prepared geopolymers were tested for the compressive and flexural strengths, bulk density, and microstructure was examined by means of SEM. The results of investigated parameters showed the differences in relation to the ratio of fly ash to brick binder
Abstract: Alkaline agents are primary binder components of geopolymer systems. In the converse, howe...
AbstractGeopolymer is a new class of inorganic polymer synthesized by activation of an aluminosilica...
The aim of this work is to study the influence of the type of activator on the formulation of geopol...
AbstractAluminosilicate materials can be transformed into very compact binding material by the proce...
Aluminosilicate materials can be transformed into very compact binding material by the process calle...
Poor reactivity of fly ash (FA) in alkali activation process can be improved either by mechanical ac...
AbstractPoor reactivity of fly ash (FA) in alkali activation process can be improved either by mecha...
Geopolymers have been the subject of substantial research and commercial interest during the beginni...
In this paper, it was aimed to manufacture a functional geopolymer structure by activating silica sa...
The thesis is focused on the application of brick powder in production of binary alkali-activated bi...
Geopolymers can improve environmental protection and are therefore considered a 21st-century materia...
Alkali-activated materials (AAM) are widely applied in the field of building materials and civil eng...
Alkali activation of alumino-silicate materials is a complex chemical process evolving dissolution o...
In line with the current focus on utilizing side products of various production processes, this diss...
An experimental investigation of fly ash activated with sodium-based alkali-silicate activating solu...
Abstract: Alkaline agents are primary binder components of geopolymer systems. In the converse, howe...
AbstractGeopolymer is a new class of inorganic polymer synthesized by activation of an aluminosilica...
The aim of this work is to study the influence of the type of activator on the formulation of geopol...
AbstractAluminosilicate materials can be transformed into very compact binding material by the proce...
Aluminosilicate materials can be transformed into very compact binding material by the process calle...
Poor reactivity of fly ash (FA) in alkali activation process can be improved either by mechanical ac...
AbstractPoor reactivity of fly ash (FA) in alkali activation process can be improved either by mecha...
Geopolymers have been the subject of substantial research and commercial interest during the beginni...
In this paper, it was aimed to manufacture a functional geopolymer structure by activating silica sa...
The thesis is focused on the application of brick powder in production of binary alkali-activated bi...
Geopolymers can improve environmental protection and are therefore considered a 21st-century materia...
Alkali-activated materials (AAM) are widely applied in the field of building materials and civil eng...
Alkali activation of alumino-silicate materials is a complex chemical process evolving dissolution o...
In line with the current focus on utilizing side products of various production processes, this diss...
An experimental investigation of fly ash activated with sodium-based alkali-silicate activating solu...
Abstract: Alkaline agents are primary binder components of geopolymer systems. In the converse, howe...
AbstractGeopolymer is a new class of inorganic polymer synthesized by activation of an aluminosilica...
The aim of this work is to study the influence of the type of activator on the formulation of geopol...