Environmental concern raised by the production of ordinary Portland cement (OPC), is behind the search for greener construction materials and remediation. One such material is alkali activated mortars (AAMs). It is well known that the high molarity of sodium hydroxide (12–16 M) and high content of sodium silicate (sodium silicate to sodium hydroxide higher than 2.5) have negative impacts on the environment. Driven by this idea, we prepared some binary alkali activated mortars by combining palm oil fuel ash (POFA) and ground blast furnace slag (GBFS) at varying ratios. The effect of low concentration alkaline solution on the fresh, mechanical and durable properties of alkali activated was determined. The ratio of sodium hydroxide (molarity 4...
The progressive deterioration of concrete surface structures being the major concern in construction...
In this study, the alkali activated mortars (AAMs) were synthesized from waste ceramic tile powder (...
Utilisation of industrial waste-based material to develop a novel binding material as an alternative...
© 2018 Elsevier Ltd Environmental concern raised by the production of ordinary Portland cement (OPC)...
This paper reports the influence of different curing temperatures, calcium content and different typ...
© 2016 Elsevier Ltd This paper reports the influence of different curing temperatures, calcium conte...
Sugarcane bagasse is an agricultural waste which can be transformed, for cementing purposes, into an...
Alkali activated fly ash/slag (AAFS), a newly evolved type of alkali-activated cements (AACs), is he...
Alkali activated fly ash/slag (AAFS), a newly evolved type of alkali-activated cements (AACs), is he...
© 2018 Concrete durability is a major concern in the construction sector worldwide. Recycled industr...
Malaysia is one of the largest palm oil producers in the world and its palm oil industry is predicte...
Alkali-activated binders made from various waste products can appreciably reduce the emission of CO2...
Recently, as a supplement of cement, the utilization of pozzolanic materials in cement and concrete ...
Researchers have investigated the feasibility of using ultrafine palm oil fuel ash (u-POFA) as a cem...
ABSTRACT Alkali activated mortars made of class F fly ash and blast furnace slag were cast, in order...
The progressive deterioration of concrete surface structures being the major concern in construction...
In this study, the alkali activated mortars (AAMs) were synthesized from waste ceramic tile powder (...
Utilisation of industrial waste-based material to develop a novel binding material as an alternative...
© 2018 Elsevier Ltd Environmental concern raised by the production of ordinary Portland cement (OPC)...
This paper reports the influence of different curing temperatures, calcium content and different typ...
© 2016 Elsevier Ltd This paper reports the influence of different curing temperatures, calcium conte...
Sugarcane bagasse is an agricultural waste which can be transformed, for cementing purposes, into an...
Alkali activated fly ash/slag (AAFS), a newly evolved type of alkali-activated cements (AACs), is he...
Alkali activated fly ash/slag (AAFS), a newly evolved type of alkali-activated cements (AACs), is he...
© 2018 Concrete durability is a major concern in the construction sector worldwide. Recycled industr...
Malaysia is one of the largest palm oil producers in the world and its palm oil industry is predicte...
Alkali-activated binders made from various waste products can appreciably reduce the emission of CO2...
Recently, as a supplement of cement, the utilization of pozzolanic materials in cement and concrete ...
Researchers have investigated the feasibility of using ultrafine palm oil fuel ash (u-POFA) as a cem...
ABSTRACT Alkali activated mortars made of class F fly ash and blast furnace slag were cast, in order...
The progressive deterioration of concrete surface structures being the major concern in construction...
In this study, the alkali activated mortars (AAMs) were synthesized from waste ceramic tile powder (...
Utilisation of industrial waste-based material to develop a novel binding material as an alternative...