Litcius/Paper detail

Porewater compositions of Portland cement with and without silica fume calculated using the fine-tuned CASH+NK solid solution model

George Dan Miron, Dmitrii A. Kulik, Barbara Lothenbach

2022Materials and Structures25 citationsDOIOpen Access PDF

Abstract

Abstract The CASH+ sublattice solid solution model of C–S–H aims to predict the composition of C–S–H and its ability to take up alkalis. It was originally developed for dilute systems with high water–solid ratios, and thus in this paper further optimized and benchmarked against measured pore solution compositions of hydrated Portland cement (PC) and PC blended with silica fume (SF) at realistic water-binder ratios. To get an improved agreement with the pore solution data, the stability of two CASH+ model endmembers, TCKh and TCNh, has been fine-tuned with standard Gibbs energy corrections of + 7.0 and + 5.0 kJ·mol −1 , respectively (at 1 bar, 25 °C). The agreement was maintained with the experiments used to originally parameterize the CASH+ model for the uptake of K and Na in dilute systems. The K and Na concentrations predicted using the fine-tuned CASH+NK model are in a good agreement with the measured values for PC and PC + SF system at different water to binder ratios, silica fume additions, and at temperatures up to 80 °C.

Topics & Concepts

Silica fumePortland cementSolid mechanicsCementMaterials scienceGibbs free energySolid solutionMineralogyChemical engineeringComposite materialThermodynamicsChemistryMetallurgyPhysicsEngineeringConcrete and Cement Materials ResearchMagnesium Oxide Properties and ApplicationsConcrete Properties and Behavior
Porewater compositions of Portland cement with and without silica fume calculated using the fine-tuned CASH+NK solid solution model | Litcius