Add to ORKGDrying of porous media, such as cement paste, is observed through different types of experiments at meso- and micro-scales. Important aspect is the transport of water through the porous material. The results from Nuclear Magnetic Resonance (NMR) drying experiments have been numerically modeled by means of Lattice Gas Automaton (LGA) from Statistical Physics. It is shown that numerical modeling with LGA can be an approximate fit to the moisture flow, through the capillaries, in the cement paste samples. For the sake of comparisons, temporal and spatial scales are yet to be found.Structural EngineeringCivil Engineering and Geoscience
The modelling and numerical simulation of the drying process in porous media are discussed in this w...
International audienceMoisture transfer is a very common phenomenon in a wide range of engineering f...
La durabilité des structures de Génie Civil, et en particulier des structures en béton, est un enjeu...
Drying of porous media, such as cement paste, is observed through different types of experiments at ...
Numerical modeling of moisture flow, drying shrinkage and crack phenomena in cement microstructure, ...
Moisture flow in porous media is the driving force behind early age drying shrinkage. Cracking in th...
ABSTRACT Numerical modeling of moisture flow, drying shrinkage and crack phenomena in cement microst...
The development of high performance cementitious materials in terms of mechanical properties, sustai...
International audienceNuclear Magnetic Resonance (NMR) methods (imaging and relaxation time) allow t...
The link between anomalous water sorption and dynamic porosity in cement pastes is explored using sp...
The drying of a saturated mortar sample was measured using Nuclear Magnetic Resonance. NMR is a tech...
International audienceThe moisture distribution during the setting of a thin mortar layer can be par...
Two main approaches have been used to model the drying process: The first approach considers the par...
The drying behavior for various calcium aluminate cement and hydratable alumina-bonded refractory ca...
Numerous experimental data on drying of concrete and cement paste are subjected to computer analysis...
The modelling and numerical simulation of the drying process in porous media are discussed in this w...
International audienceMoisture transfer is a very common phenomenon in a wide range of engineering f...
La durabilité des structures de Génie Civil, et en particulier des structures en béton, est un enjeu...
Drying of porous media, such as cement paste, is observed through different types of experiments at ...
Numerical modeling of moisture flow, drying shrinkage and crack phenomena in cement microstructure, ...
Moisture flow in porous media is the driving force behind early age drying shrinkage. Cracking in th...
ABSTRACT Numerical modeling of moisture flow, drying shrinkage and crack phenomena in cement microst...
The development of high performance cementitious materials in terms of mechanical properties, sustai...
International audienceNuclear Magnetic Resonance (NMR) methods (imaging and relaxation time) allow t...
The link between anomalous water sorption and dynamic porosity in cement pastes is explored using sp...
The drying of a saturated mortar sample was measured using Nuclear Magnetic Resonance. NMR is a tech...
International audienceThe moisture distribution during the setting of a thin mortar layer can be par...
Two main approaches have been used to model the drying process: The first approach considers the par...
The drying behavior for various calcium aluminate cement and hydratable alumina-bonded refractory ca...
Numerous experimental data on drying of concrete and cement paste are subjected to computer analysis...
The modelling and numerical simulation of the drying process in porous media are discussed in this w...
International audienceMoisture transfer is a very common phenomenon in a wide range of engineering f...
La durabilité des structures de Génie Civil, et en particulier des structures en béton, est un enjeu...