CONICET | Buscador de Institutos y Recursos Humanos

AbstractThe mullite ? 3Al2O3.2SiO2-, has different applications, specially in refractory materials, as it is the silicoaluminousrefractory material for excellence. The most frequent methods used to prepare mullite are based on the thermal decomposition ofclay or kaolin, supplemented with alumina to achieve the desired stoichiometry, or also by mixing silica with alumina with thesuitable thermal treatment.In this work mullites were obtained from two different mixtures of two clays as raw materials (Tincar Súper clay and La Riojaclay) and one source of alumina (calcined alumina) using in both cases a 3Al2O3.2SiO2 stoichiometry. With the aim ofproceeding to formulate synthetic mullite with 3-2 stoichiometry (100 gr of Tincar Super clay with 147.2 gr of calcined alumina(AtinAcal) and 100 gr of La Rioja clay with 80 gr of calcined alumina (AriojAcal)), a suspension of 78 wt% of solids in distilledwater was prepared using ammonium polyacrylate as dispersant.To shape specimens casting method in plaster moulds was used, obtaining probes of 0.80 by 0.80 by 6.0 cm3, dried at 110° Cand later calcined at 1550° C for 4 hours. Probes calcined were characterized by X-Ray diffraction (XRD), modulus of rupture,thermal shock resistance, density and porosity by Archimedes method (open pores), and permanent lineal change with respect tothe forming mold.