Add to ORKGAlthough notable advances have been made in recent years in elucidating the relationship between the nature of the precursor and the activation conditions used for production of alkali-activated materials (AAMs), it remains largely unknown whether these materials can withstand various environmental threats during their service life. The interaction between a cementitious material and the CO2 present in the air is referred to as carbonation, and while this is largely a well understood phenomenon for portland cement systems, its long-term effects in AAMs are unknown. This is a consequence of the large number of variables controlling microstructural development and therefore macro-scale properties of AAMs, and the lack of standardized methodol...
Portland cement as a commonly used material in soil stabilization projects, releases considerable am...
Cement production is one of the major contributors to higher carbon dioxide (CO2) emissions, leading...
The current understanding of the carbonation of alkali-activated concretes is hampered inter alia by...
© 2017 American Concrete Institute. All rights reserved. Although notable advances have been made in...
This paper addresses the effects of relative humidity (RH) and carbon dioxide (CO2) concentration on...
As the building sector is expanding, a growing interest in technologies that can reduce the CO2 emis...
Carbonation is inevitable process during the service life of concrete structures, where CO2 causes d...
The structural changes induced by accelerated carbonation in alkali-activated slag/metakaolin (MK) c...
The use of sodium carbonate as an activator to prepare alkali-activated cements from blast furnace s...
The current understanding of the carbonation and the prediction of the carbonation rate of alkali-ac...
Understanding the rate and implications of carbonation on strength and durability in alternative cem...
In this paper, the recent research progress on the corrosion of reinforced alkali-activated material...
Carbonation of cementitious materials induced by their interaction with atmospheric CO2 is one of th...
Quantification of the CO2 binding capacity of reinforced concrete is of high importance for predicti...
Focus on alkali-activated materials (AAMs) have increased in recent years due to its possibility to ...
Portland cement as a commonly used material in soil stabilization projects, releases considerable am...
Cement production is one of the major contributors to higher carbon dioxide (CO2) emissions, leading...
The current understanding of the carbonation of alkali-activated concretes is hampered inter alia by...
© 2017 American Concrete Institute. All rights reserved. Although notable advances have been made in...
This paper addresses the effects of relative humidity (RH) and carbon dioxide (CO2) concentration on...
As the building sector is expanding, a growing interest in technologies that can reduce the CO2 emis...
Carbonation is inevitable process during the service life of concrete structures, where CO2 causes d...
The structural changes induced by accelerated carbonation in alkali-activated slag/metakaolin (MK) c...
The use of sodium carbonate as an activator to prepare alkali-activated cements from blast furnace s...
The current understanding of the carbonation and the prediction of the carbonation rate of alkali-ac...
Understanding the rate and implications of carbonation on strength and durability in alternative cem...
In this paper, the recent research progress on the corrosion of reinforced alkali-activated material...
Carbonation of cementitious materials induced by their interaction with atmospheric CO2 is one of th...
Quantification of the CO2 binding capacity of reinforced concrete is of high importance for predicti...
Focus on alkali-activated materials (AAMs) have increased in recent years due to its possibility to ...
Portland cement as a commonly used material in soil stabilization projects, releases considerable am...
Cement production is one of the major contributors to higher carbon dioxide (CO2) emissions, leading...
The current understanding of the carbonation of alkali-activated concretes is hampered inter alia by...