Influence of TiO2 and Cr2O3 on crystallinity and properties of Ca, Li aluminosilicate glass

The influence of TiO2 and Cr2O3 on the crystallisation behaviour of a glass system based on CaO-Li2O-Al2O3-SiO2 has been studied. Local limestone and clays were used as raw materials in the batch composition. Various thermal, microscopic and diffractometric techniques were used to investigate the amorphous and crystalline phases present. Heat treatment led to the formation of beta-eucryptite, wollastonite, anorthite and fayalite. Both parent and Cr2O3 containing glasses showed enhanced crystallisation of beta-eucryptite and wollastonite, whereas anorthite formation was catalysed in TiO2 containing glasses, in addition to the latter phases mentioned. Crystallisation of all glasses at 1100 degrees C reduced wollastonite formation to trace levels; however, fayalite appeared in Cr2O3 containing microstructure were developed, mainly samples. Glassy characterised by accumulated fine rounded to subrouncled crystals of 2 center dot 5-10 mu m diameter of beta-eucryptite phase. Intergranular rhombic-like and fibrous crystals were also developedand may be wollastonite and anorthite respectively, in TiO2 containing samples. Depending on the content of beta-eucryptite and other phases in the glass-cerarnic samples, the coefficient of thermal expansion ranged from -8 center dot 75 x 10(-7)degrees C-1 (25-300 degrees C) to 54 center dot 16 x 10(-7)degrees C-1 (25-680 degrees C). The Vickers microhardness of glass-ceramic samples ranged between 676 and 593 kg mm(-2) and was high for anorthite containing samples.