Litcius/Paper detail

Local structure and Ca/Si ratio in C-S-H gels from hydration of blends of tricalcium silicate and silica fume

Ana Cuesta, Isabel Santacruz, Ángeles G. De la Torre, Monica Dapiaggi, Jesus D. Zea-García, Miguel Á. G. Aranda

2021Cement and Concrete Research158 citationsDOIOpen Access PDF

Abstract

At the microscale, C-S-H gels from alite, or neat Portland cements, has a Ca/Si ratio close to 1.80. At the nanoscale, C-S-H is described by a defective tobermorite structure which allows a maximum Ca/Si ratio close to 1.40. There is no agreement in the location of the extra 0.40 mol of Ca(OH)2 at the nanoscale. Atomistic modelling studies reported Ca(OH)2 species within the tobermorite interlayer space. Other works point toward a fine intermixing of defective tobermorite and nanoportlandite. Here, we have prepared a series of alite blended with silica fume and studied the pastes by several techniques including synchrotron pair distribution function (PDF). In the employed conditions, the C-S-H gel formed by the pozzolanic reaction has nearly the same local structure than the primary C-S-H gel. Furthermore, differential PDF points toward Ca(OH)2 excess having a local structure compatible with few-layer thick nanoparticles stretched along the c-axis.

Topics & Concepts

TobermoriteMaterials scienceSilica fumeChemical engineeringAliteCalcium silicateCrystallinityMineralogyPortland cementSilicateNanoscopic scaleCementCrystallographyComposite materialNanotechnologyChemistryClinker (cement)EngineeringConcrete and Cement Materials ResearchBuilding materials and conservationMagnesium Oxide Properties and Applications