Add to ORKGThis article is dedicated in honor of Dr. Hamlin Jennings, our esteemed colleague in cement chemistry who provided comment on this work and sadly passed just after its acceptance. His enthusiastic efforts to bring a materials science perspective to cement research will be long valued. The initial microscale mechanisms and materials interfacial process responsible for hydration of calcium silicates are poorly understood even in model systems. The lack of a measured microscale chemical signature has confounded understanding of growth mechanisms and kinetics for microreaction volumes. Here, we use Raman and optical spectroscopies to quantify hydration and environmental carbonation of tricalcium silicates across length and time scales. We show ...
The hydration kinetics of tricalcium silicate (C3S) has been the subject of much study, yet the expe...
Tricalcium silicate, the main constituent of Portland cement, hydrates to produce crystalline calciu...
Acknowledgements We thank CCM for its financial support of a PhD student ship tenable by LJM. Electr...
The initial microscale mechanisms and materials interfacial process responsible for hydration of cal...
We present a micro-Raman study on the hydration and carbonation of the main silicate phases of Portl...
The efficiency of hydrated cement carbonation is often ascribed to the total amount of CO2 stored by...
The nanostructure of the main binding phase of the hydrated cements, the calcium silicate hydrates (...
Cement kiln dust accelerated carbonation in aqueous slurries at 25°C and 3 bar PCO2 was investigated...
Natural analogues of Portland cement can provide insights into carbonation processes operating over ...
The Purpose of this study is to provide experimental material which could be valuable help for the r...
AbstractNatural analogues of Portland cement can provide insights into carbonation processes operati...
Proceeding page 3612 de "Conference Proceedings of the 15th ICCC, Prague, 16-20 September 2019"Inter...
Carbonation of natural earth-abundant and synthetic metal silicates promises scalable solutions to p...
Although Portland cement concrete is the world’s most widely used manufactured material, basic quest...
The hydration kinetics of tricalcium silicate (C3S) has been the subject of much study, yet the expe...
Tricalcium silicate, the main constituent of Portland cement, hydrates to produce crystalline calciu...
Acknowledgements We thank CCM for its financial support of a PhD student ship tenable by LJM. Electr...
The initial microscale mechanisms and materials interfacial process responsible for hydration of cal...
We present a micro-Raman study on the hydration and carbonation of the main silicate phases of Portl...
The efficiency of hydrated cement carbonation is often ascribed to the total amount of CO2 stored by...
The nanostructure of the main binding phase of the hydrated cements, the calcium silicate hydrates (...
Cement kiln dust accelerated carbonation in aqueous slurries at 25°C and 3 bar PCO2 was investigated...
Natural analogues of Portland cement can provide insights into carbonation processes operating over ...
The Purpose of this study is to provide experimental material which could be valuable help for the r...
AbstractNatural analogues of Portland cement can provide insights into carbonation processes operati...
Proceeding page 3612 de "Conference Proceedings of the 15th ICCC, Prague, 16-20 September 2019"Inter...
Carbonation of natural earth-abundant and synthetic metal silicates promises scalable solutions to p...
Although Portland cement concrete is the world’s most widely used manufactured material, basic quest...
The hydration kinetics of tricalcium silicate (C3S) has been the subject of much study, yet the expe...
Tricalcium silicate, the main constituent of Portland cement, hydrates to produce crystalline calciu...
Acknowledgements We thank CCM for its financial support of a PhD student ship tenable by LJM. Electr...