Hygro-thermo-chemo-mechanical modelling of concrete at early ages and beyond. Part I: hydration and hygro-thermal phenomena
From MaRDI portal
Publication:3440545
DOI10.1002/nme.1615zbMath1110.74821OpenAlexW2060372950MaRDI QIDQ3440545
Francesco Pesavento, Bernhard A. Schrefler, Dariusz Gawin
Publication date: 22 May 2007
Published in: International Journal for Numerical Methods in Engineering (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1002/nme.1615
chemical affinityhydrationconcrete at early ageshygro-thermo-chemo-mechanical modelsolidification-type model
Related Items (15)
Multiphase flow in deforming porous media: a review ⋮ Multiscale/Multiphysics Model for Concrete ⋮ Modeling of cementitious materials exposed to isothermal calcium leaching, considering process kinetics and advective water flow. I: Theoretical model ⋮ Weak solutions of coupled variable-density flows and heat transfer in porous media ⋮ On computational modeling in tumor growth ⋮ Constitutive modeling of orthotropic nonlinear mechanical behavior of hardened 3D printed concrete ⋮ Modeling of cement hydration in high performance concrete structures with hybrid finite elements ⋮ On degenerate coupled transport processes in porous media with memory phenomena ⋮ An elastic‐inelastic model and embedded bounce‐back control for layered printing with cementitious materials ⋮ Modeling deterioration of cementitious materials exposed to calcium leaching in non-isothermal conditions ⋮ Modelling of cement hydration in concrete structures with hybrid finite elements ⋮ Modeling alkali-silica reaction in non-isothermal, partially saturated cement based materials ⋮ On existence, uniqueness and two-scale convergence of a model for coupled flows in heterogeneous media ⋮ Modeling cementitious materials as multiphase porous media: Theoretical framework and applications ⋮ Spherical and acicular representation of hydrates in a micromechanical model for cement paste: Prediction of early-age elasticity and strength
Cites Work
This page was built for publication: Hygro-thermo-chemo-mechanical modelling of concrete at early ages and beyond. Part I: hydration and hygro-thermal phenomena