Microstructures and macroscopic conductivity of randomly packed and uniaxially pressed sphere compacts

Abstract: The present paper deals with simulation of microstructures and macroscopic conductivity of randomly packed, uniaxially pressed and sintered particles. Random packings of identical spheres are constructed by using a sequential deposition method and their microgeometry after the compaction in sintering is geometrically created by proportional reduction in distances between the sphere centers only in the vertical direction and by mass addition around overlapped necks. Some of microgeometrical characteristics of t… Show more

“…Different methods have been proposed for calculating the effective thermal conductivity (K eff ) of porous materials formed by spherical particles with different types of packing. [27][28][29][30][31] Siu and Lee 28 developed a method to calculate the effective thermal conductivity of packed beds considering structured stacks, which was validated for porosities between 0.5 and 0.2 by comparison with experimental data from the literature, and where the conductivity of the solid phase was much larger than that of the surrounding fluid matrix. They considered that randomly packed beds were based on three different ordered structures, depending on porosity, i.e.…”

Porous mullite templated from hard mullite beads

“…Different methods have been proposed for calculating the effective thermal conductivity (K eff ) of porous materials formed by spherical particles with different types of packing. [27][28][29][30][31] Siu and Lee 28 developed a method to calculate the effective thermal conductivity of packed beds considering structured stacks, which was validated for porosities between 0.5 and 0.2 by comparison with experimental data from the literature, and where the conductivity of the solid phase was much larger than that of the surrounding fluid matrix. They considered that randomly packed beds were based on three different ordered structures, depending on porosity, i.e.…”

Porous mullite templated from hard mullite beads

“…This was observed by Johansen [4] and by Côté and Konrad [6] in air-saturated porous geomaterials where the k values of natural particle packs (rounded/sub-rounded) were systematically lower than those of crushed particle packs (angular/sub-angular). Recently, the fast growing performances of desktop computers enabled the study of structure effects on the effective thermal conductivity of various porous media also showing the importance of particle contact density [11,12].…”

Assessment of structure effects on the thermal conductivity of two-phase porous geomaterials

“…It is believed that 3 dimensional particle packing factor (3D-PF) is a crucial factor in improving the conductivity of direct patterned devices [1]. In other words, conductivity can be improved by decreasing the amount of voids within the pattern [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15].…”

Computer aided simulation of mesoscale particles mixing for direct printable ink