An investigation has been made of the constitution of laser-processed
ceramics from the SiO2-Al2O3 system. Samples were produced in the form
of pellets a few millimetres in diameter by pulsed laser melting of m
ixtures of silica and alumina powders containing 40, 60 and 70 mol% Al
2O3. X-ray diffraction identified the main crystalline phases as Al2O3
in the pellets produced from the 70 mol % Al2O3 mixture and mullite f
rom the 60 and 40 mol % Al2O3 mixtures. The proportion of glassy phase
present increased with increasing SiO2 content. Microstructural obser
vations on the 60 mol% Al2O3 pellet showed primary mullite crystals an
d a lamellar structure interpreted as a eutectic of Al2O3 and mullite.
Pellets prepared by melting kaolin powder consisted essentially of a
glassy phase and much porosity. Cladding of an alumina substrate, carr
ied out using a continuous powder feed into a laser-generated melt poo
l, was carried out using the same silica-alumina mixtures as those emp
loyed for pellet production. A clad layer was also produced by preplac
ing a kaolin coat on the alumina substrate prior to laser processing.
The effects of traverse speed over the range 3.7 to 7.4 mms(-1) inclus
ive, power density (44.4 and 111 Wmm(-2)) and powder flow rate (0.13 t
o 0.47 gs(-1) inclusive) were investigated. It was found that the phas
es present in the clad layer depended on the composition of the precur
sor powder and the processing conditions. Microstructural examination
of the clad layers produced from SiO2-60 mol % Al2O3 and kaolin that h
ad completely melted during processing exhibited various growth morpho
logies.