The spatio-temporal distribution (4D) of water in porous materials plays a fundamental role in many natural and technological processes. The dynamics of water transport is strongly entangled with the material’s pore-scale structure. Understanding their correlation requires imaging simultaneously the 4D water distribution and the porous microstructure. To date, 4D images with high temporal and spatial resolution have been mainly acquired by attenuation-based X-ray micro-tomography, whereby pure water is substituted by saline solutions with high atomic number components to improve image contrast. The use of saline solutions is however not always desirable, as the altered fluid properties may affect the transport process as well or, as it is t...
When a mortar is applied to a porous substrate like brick or stone, water is exchanged between both ...
To reduce the weathering rate of natural building stones, a wide variety of water repellents and con...
Microbial activity and biofilm growth in porous media can drastically modify transport properties su...
The spatio-temporal distribution (4D) of water in porous materials plays a fundamental role in many ...
We present in this study results from X-ray tomographic microscopy with synchrotron radiation perfor...
Liquid migration inside building materials is influenced by the microstructure of the porous medium ...
Micro computed tomography is a powerful tool for the inspection of porous media since it essentially...
We present data on the kinetics of drying and deliquescence, and on the precipitation and distributi...
Absorption-based X-ray micro-tomography (X-mu CT) provides fundamental in-situ information on the 3D...
Solute transport processes are influenced by pore-scale heterogeneity. To study this, transient micr...
Water plays a vital role on the hydromechanical behavior of unsaturated soils. An important concern ...
Microfocus X-ray projection is presented as an accurate experimental technique for measuring moistur...
Abstract. X-ray computed tomography (CT) offers distinct advantages to study fundamental physical pr...
The early hydration of three cementing materials has been investigated in situ by Synchrotron X-ray ...
A recently developed synchrotron-based imaging technique, X-ray diffraction microtomography (XRD-CT)...
When a mortar is applied to a porous substrate like brick or stone, water is exchanged between both ...
To reduce the weathering rate of natural building stones, a wide variety of water repellents and con...
Microbial activity and biofilm growth in porous media can drastically modify transport properties su...
The spatio-temporal distribution (4D) of water in porous materials plays a fundamental role in many ...
We present in this study results from X-ray tomographic microscopy with synchrotron radiation perfor...
Liquid migration inside building materials is influenced by the microstructure of the porous medium ...
Micro computed tomography is a powerful tool for the inspection of porous media since it essentially...
We present data on the kinetics of drying and deliquescence, and on the precipitation and distributi...
Absorption-based X-ray micro-tomography (X-mu CT) provides fundamental in-situ information on the 3D...
Solute transport processes are influenced by pore-scale heterogeneity. To study this, transient micr...
Water plays a vital role on the hydromechanical behavior of unsaturated soils. An important concern ...
Microfocus X-ray projection is presented as an accurate experimental technique for measuring moistur...
Abstract. X-ray computed tomography (CT) offers distinct advantages to study fundamental physical pr...
The early hydration of three cementing materials has been investigated in situ by Synchrotron X-ray ...
A recently developed synchrotron-based imaging technique, X-ray diffraction microtomography (XRD-CT)...
When a mortar is applied to a porous substrate like brick or stone, water is exchanged between both ...
To reduce the weathering rate of natural building stones, a wide variety of water repellents and con...
Microbial activity and biofilm growth in porous media can drastically modify transport properties su...