Influence of surface crystallinity on the surface roughness of different ceramic glazes

Abstract

Surface smoothness is an important characteristic of ceramic glazes as it influences chemical resistivity, glossiness and stainability of glazes. Surface crystallinity of zirconia-based and titania-based glazes (as two common opaque glazes), calcium-zinc based matte glaze and also two transparent glazes with different compositions were studied in this work. Degree of surface crystallinity measured by stereological methods using scanning electron microscopy (SEM) images showed that transparent glaze has the minimum degree of crystallinity (2.1%) and the maximum amount (25.4%) was obtained for matte glaze. In addition, X-ray diffraction (XRD) was used to characterize the glaze mineralogy. Optical surface profiler showed that the smoothest surface belongs to titania-based opaque glaze (Ra=0.0157µm) and transparent glaze (Ra=0.0168µm). In contrast, the roughest glaze surface corresponded to the matte glaze (Ra=0.2772µm). The results suggest that surface roughness is influenced by crystallinity of surface, but degree of surface crystallinity is not the only parameter that can influence the surface roughness. The most important factor is the morphology of the crystals grow and their protrusion from the surface.