Simulation of capillary infiltration into packing structures for the optimization of ceramic materials using the lattice Boltzmann method

Ortona, Alberto and Sergi, Danilo and Grossi, Loris and Leidi, Tiziano (2016) Simulation of capillary infiltration into packing structures for the optimization of ceramic materials using the lattice Boltzmann method. Engineering Applications of Computational Fluid Mechanics. ISSN 1994-2060

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Abstract

This study uses the lattice Boltzmann method (LBM) to simulate in 2D the capillary infiltration into porous structures obtained from the packing of particles. The experimental problem motivating the work is the densification of carbon preforms by reactive melt infiltration. The aim is to determine the optimization principles for the manufacturing of high-performance ceramics. Simulations are performed for packings with varying structural properties. The results suggest that the observed slow infiltrations can be ascribed to interface dynamics. Pinning represents the primary factor retarding fluid penetration. The mechanism responsible for this phenomenon is analyzed in detail. When surface growth is allowed, it is found that the phenomenon of pinning becomes stronger. Systems trying to reproduce typical experimental conditions are also investigated. It turns out that the standard for accurate simulations is challenging. The primary obstacle to overcome for enhanced accuracy seems to be the over-occurrence of pinning.

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