Add to ORKGIn the present paper, compressive strength of cement mortar was investigated through two cases: case I in which just nano-clay (Nano clay to cement proportion equal to 3% and %5) is included, and case II in which both nano-clay and fly ash were considered (with the same values for Nano-clay as case I, and with fly ash to cement proportion equal to 15%). Gradual interaction of fly Ash with calcium hydroxide and alkalins resulted from cement hydration process, produces more C-S-H, spreading through concrete substructure free spaces. Results indicated that, all samples which contain nano-clay are denser than the reference sample. Adding fly ash and nano-clay have resulted in decreasing short term period (relating to three and seven days age) ...
In this experimental study, the effects of using nano-sized Cement Kiln Dust (CKD) as a partial repl...
Abstract – The aims of this study are to find the optimum percentage of landfilled fly ash that coul...
The effect of bentonite, colemanite ore waste (CW), coal fly ash (FA) and coal bottom ash (BA) on th...
AbstractThis research is aimed to investigating the possibility of substituting cement with fly ash....
This paper investigates a design experiment of mortar used to analyse the material content factor on...
This paper presents the effect of nano silica (NS) on the compressive strength of mortars and concre...
This paper evaluates the effect of Ultrafine Fly Ash (UFFA) and Nano Silica (NS) on compressive stre...
Concrete is considered as brittle materials and widely used due to high compressive strength but unf...
Concrete is considered as brittle materials and widely used due to high compressive strength but unf...
In the paper, the authors present the results of tests concerning traditional cement mortars with th...
The use of fly ash as a cement replacement makes the mortar less permeable to harmful ions due to it...
This paper reports the results of an experimental investigation carried out to study the effects of ...
This paper examines the rheology, hydration kinetics and development of the compressive strength of ...
Many past studies concerned about using of nanoclay (nC) particles as an active pozzolan to concrete...
The present study is aimed at investigating the combined effects of colloidal nanosilica (CNS) and f...
In this experimental study, the effects of using nano-sized Cement Kiln Dust (CKD) as a partial repl...
Abstract – The aims of this study are to find the optimum percentage of landfilled fly ash that coul...
The effect of bentonite, colemanite ore waste (CW), coal fly ash (FA) and coal bottom ash (BA) on th...
AbstractThis research is aimed to investigating the possibility of substituting cement with fly ash....
This paper investigates a design experiment of mortar used to analyse the material content factor on...
This paper presents the effect of nano silica (NS) on the compressive strength of mortars and concre...
This paper evaluates the effect of Ultrafine Fly Ash (UFFA) and Nano Silica (NS) on compressive stre...
Concrete is considered as brittle materials and widely used due to high compressive strength but unf...
Concrete is considered as brittle materials and widely used due to high compressive strength but unf...
In the paper, the authors present the results of tests concerning traditional cement mortars with th...
The use of fly ash as a cement replacement makes the mortar less permeable to harmful ions due to it...
This paper reports the results of an experimental investigation carried out to study the effects of ...
This paper examines the rheology, hydration kinetics and development of the compressive strength of ...
Many past studies concerned about using of nanoclay (nC) particles as an active pozzolan to concrete...
The present study is aimed at investigating the combined effects of colloidal nanosilica (CNS) and f...
In this experimental study, the effects of using nano-sized Cement Kiln Dust (CKD) as a partial repl...
Abstract – The aims of this study are to find the optimum percentage of landfilled fly ash that coul...
The effect of bentonite, colemanite ore waste (CW), coal fly ash (FA) and coal bottom ash (BA) on th...