Heating-induced transformations in calcium silicate hydrate (CSH): In-situ investigations of composition, structure, and morphology
Transformation of CSH is crucial in the deterioration of concrete at high temperatures. This
study investigates the composition, structure, and morphology of CSH from 30° C to 1000° C …
study investigates the composition, structure, and morphology of CSH from 30° C to 1000° C …
Synthesis, performance and mechanism of shrinkage-reducing agents with water-reducing function for cement-based materials
Three shrinkage-reducing agents (SRAs) possessing a water-reducing capacity with
different structures were synthesized by aqueous free radical copolymerization. Their …
different structures were synthesized by aqueous free radical copolymerization. Their …
[HTML][HTML] Compensating for Concrete Shrinkage with High-Calcium Fly Ash
Y Barabanshchikov, V Krotova, K Usanova - Buildings, 2024 - mdpi.com
Shrinkage of concrete during hardening is a serious problem in attempts to maintain the
integrity of concrete structures. One of the methods of combating shrinkage is compensating …
integrity of concrete structures. One of the methods of combating shrinkage is compensating …
Early-age cracking failure behavior of high strength concrete with temperature rising inhibitor under different temperature histories
D Shen, Q Huang, Y Huang, C Liu, J Kang… - … and Building Materials, 2024 - Elsevier
Curing temperatures and cooling rates exhibit significant impact on early-age performance
of concrete. Besides, a deeper investigation on curing temperatures and cooling rates can …
of concrete. Besides, a deeper investigation on curing temperatures and cooling rates can …
Phase diagrams for Portland cement-slag-fly ash ternary cements
This paper presents phase diagrams for Portland cement-slag-fly ash ternary cements. The
study investigates various binder combinations of Portland cement, slag and fly ash, ranging …
study investigates various binder combinations of Portland cement, slag and fly ash, ranging …
[HTML][HTML] Feasibility Study of Magnesium Slag, Fly Ash, and Metakaolin to Replace Part of Cement as Cementitious Materials
F Wei, H **ao, J Zhang, Z He, X Cao, B Guan - Buildings, 2024 - mdpi.com
To achieve the efficient utilization of magnesium slag, this study investigates the use of
magnesium slag, fly ash, and metakaolin as partial substitutes for cement in cementitious …
magnesium slag, fly ash, and metakaolin as partial substitutes for cement in cementitious …
[CITATION][C] Study of durability properties of composite cement (a type of hydraulic cement) currently being manufactured by the cement industry in India (CED 0237)
K Jayachandran - 2024 - National Institute of Technology …