Wetting and penetration of cordierite and mullite materials by non-stoichiometric cordierite liquids

MARÍA ANDREA CAMERUCCI; ANA LÍA CAVALIERI

CERAMICS INTERNATIONAL

Elsevier Science Ltd.

Lugar: Amsterdam; Año: 2008 vol. 34 p. 1753 - 1762

0272-8842

The wetting and penetration of two non-stoichiometric cordierite liquids (labelled G1 = 25 wt.% Al2O3, 63 wt.% SiO2 and 12 wt.% MgO, and G2 = 20 wt.% Al2O3, 64 wt.% SiO2 and 16 wt.% MgO) on sintered cordierite and mullite substrates were investigated. Their chemical compositions (G1 and G2) correspond to those glasses present in materials sintered from a commercial powder of non-stoichiometric cordierite powder at 1450 or 1400 8C, respectively.Sessile drop assemblies for wetting and penetration tests, consisting of cordierite or mullite disks as substrates and pellets of pressed powder glasses positioned above them, were employed. Commercially available cordierite and mullite powders were used to prepare the substrates byuniaxial pressing and sintering at 1450 and 1700 8C, 2 h, respectively. The glass pellets were prepared by uniaxial pressing of G1 and G2 glass powders. The assemblies were heating at 25 8C/min up to 1450 or 1400 8C depending on each glass, soaking at these temperatures for 10, 120 or 360 min and cooling at 25 and 5 8C/min down to 1100 8C and room temperature, respectively. The contact angles between each glass and both cordierite and mullite substrates according to the temperature, were determined by heating microscopy technique from optical images. Their penetration behavior of both glasses into cordierite or mullite substrates were also studied analyzing by SEM the microstructures of the specimens transversally cut, polished, and chemically etched.