TY - JOUR
T1 - Diffusion in porous building materials with high internal magnetic field gradients
AU - Petkovic, J.
AU - Huinink, H.P.
AU - Pel, L.
AU - Kopinga, K.
PY - 2004
Y1 - 2004
N2 - Measuring the water diffusivity in porous building materials with NMR is hindered by the presence of large internal magnetic
field gradients originating from magnetic impurities (Fe). To investigate the diffusion of water in these materials, a stimulated echo
NMR technique is applied. A new analytical equation for the long-time signal decay in the presence of spatially varying internal field
gradients is derived. This equation is experimentally confirmed by measurements on representative materials with large internal
gradients (fired-clay brick and sintered crushed glass) and a material with very small internal gradients (glass filter). The diffusivity is
determined in the long time limit, where it is constant and limited by the tortuosity of the pore structure. Tortuosities of different
samples derived from the NMR data show an excellent agreement with the macroscopic tortuosities measured by electrochemical
impedance spectroscopy. The developed technique can also be applied in unsaturated media, during e.g., drying, water absorption,
and concentration changes. The characteristic length scales of the internal field fluctuations estimated from the model are compared
with the structural length scales, whereas the magnitude of these fluctuations is compared with results of macroscopic magnetization
measurements.
AB - Measuring the water diffusivity in porous building materials with NMR is hindered by the presence of large internal magnetic
field gradients originating from magnetic impurities (Fe). To investigate the diffusion of water in these materials, a stimulated echo
NMR technique is applied. A new analytical equation for the long-time signal decay in the presence of spatially varying internal field
gradients is derived. This equation is experimentally confirmed by measurements on representative materials with large internal
gradients (fired-clay brick and sintered crushed glass) and a material with very small internal gradients (glass filter). The diffusivity is
determined in the long time limit, where it is constant and limited by the tortuosity of the pore structure. Tortuosities of different
samples derived from the NMR data show an excellent agreement with the macroscopic tortuosities measured by electrochemical
impedance spectroscopy. The developed technique can also be applied in unsaturated media, during e.g., drying, water absorption,
and concentration changes. The characteristic length scales of the internal field fluctuations estimated from the model are compared
with the structural length scales, whereas the magnitude of these fluctuations is compared with results of macroscopic magnetization
measurements.
U2 - 10.1016/j.jmr.2003.11.007
DO - 10.1016/j.jmr.2003.11.007
M3 - Article
C2 - 14987603
SN - 1090-7807
VL - 167
SP - 97
EP - 106
JO - Journal of Magnetic Resonance
JF - Journal of Magnetic Resonance
IS - 1
ER -