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Nanoscale shear cohesion between cement hydrates: The role of water diffusivity under structural and electrostatic confinement

Eduardo Duque-Redondo, Enrico Masoero, Hegoi Manzano

2022Cement and Concrete Research34 citationsDOIOpen Access PDF

Abstract

The calcium silicate hydrate (C-S-H) controls most of the final properties of the cement paste, including its mechanical performance. It is agreed that the nanometer-sized building blocks that compose the C-S-H are the origin of the mechanical properties. In this work, we employ atomistic simulations to investigate the relaxation process of C-S-H nanoparticles subjected to shear stress. In particular, we study the stress relaxation by rearrangement of these nanoparticles via sliding adjacent C-S-H layers separated by a variable interfacial distance. The simulations show that the shear strength has its maximum at the bulk interlayer space, called perfect contact interface, and decreases sharply to low values for very short interfacial distances, coinciding with the transition from 2 to 3 water layers and beginning of the water flow. The evolution of the shear strength as a function of the temperature and ionic confinement confirms that the water diffusion controls the shear strength.

Topics & Concepts

Calcium silicate hydrateMaterials scienceCohesion (chemistry)Composite materialThermal diffusivityIonic strengthNanoparticleShear (geology)CementIonic bondingChemical physicsThermodynamicsNanotechnologyIonChemistryAqueous solutionPhysicsPhysical chemistryOrganic chemistryConcrete and Cement Materials ResearchCO2 Sequestration and Geologic InteractionsRock Mechanics and Modeling
Nanoscale shear cohesion between cement hydrates: The role of water diffusivity under structural and electrostatic confinement | Litcius