A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Microstructure and transport properties of porous building materials. II: Three-dimensional X-ray tomographic studies
Abstract Three-dimensional X-ray microtomography is used to obtain three-dimensional images of the microstructure of two types of brick. The images are processed to remove the noise (random and circular pattern) and then thresholded to match the porosity determined experimentally. The 3-D binary images are then analyzed to estimate their vapor diffusivity and air permeability to compare to experimental data published in part one of this report. Care must be taken in obtaining the tomographic images at a resolution that both enables isolation and quantification of the pores of interest and provides a representative elementary volume for the transport property calculations. In general, the agreement between computed and measured properties is reasonable, suggesting that X-ray microtomography can provide valuable information on the characteristics and properties of the pore networks developed in these porous building materials. A preliminary evaluation indicates that the Katz-Thompson relationship between permeability, diffusivity, and pore size is valid for these materials.
Microstructure and transport properties of porous building materials. II: Three-dimensional X-ray tomographic studies
Abstract Three-dimensional X-ray microtomography is used to obtain three-dimensional images of the microstructure of two types of brick. The images are processed to remove the noise (random and circular pattern) and then thresholded to match the porosity determined experimentally. The 3-D binary images are then analyzed to estimate their vapor diffusivity and air permeability to compare to experimental data published in part one of this report. Care must be taken in obtaining the tomographic images at a resolution that both enables isolation and quantification of the pores of interest and provides a representative elementary volume for the transport property calculations. In general, the agreement between computed and measured properties is reasonable, suggesting that X-ray microtomography can provide valuable information on the characteristics and properties of the pore networks developed in these porous building materials. A preliminary evaluation indicates that the Katz-Thompson relationship between permeability, diffusivity, and pore size is valid for these materials.
Microstructure and transport properties of porous building materials. II: Three-dimensional X-ray tomographic studies
Bentz, D. P. (author) / Quenard, D. A. (author) / Kunzel, H. M. (author) / Baruchel, J. (author) / Peyrin, F. (author) / Martys, N. S. (author) / Garboczi, E. J. (author)
2000
Article (Journal)
English
| British Library Online Contents | 2000
Microstructure and transport properties of porous building materials
| Online Contents | 1998
Microstructure and transport properties of porous building materials
| British Library Online Contents | 1998