The physicochemical and process properties of oversanded argillaceous raw materials and technogenic wastes from production of propylene were investigated. The process parameters of production of construction ceramics based on them are reported.The problem of providing the population with quality and moderately priced housing has now arisen. Without an important increase in production volumes and expansion of the assortment of energy-efficient ceramic construction materials, it will be impossible to solve this problem. Increasing production volumes for such materials is unconditionally correlated with a search for new kinds of raw materials. We investigated the possibility of using previously unclaimed aluminum-containing chemical plant wastes and universally distributed local oversanded argillaceous raw materials.Weak clays from the Koshchakovo and Petrovsk deposits with a free quartz content of up to 65% were used as the silica raw material for manufacturing the ceramic. This raw material sinters poorly and the samples are insufficiently strong after sintering. For this reason, addition of such an important component as alumina, Al 2 O 3 , to the ceramic paste should improve these properties as the physicomechanical properties of calcined ceramics are essentially a function of the amount of alumina. Using aluminum-containing chemical plant wastes containing CaCO 3 in addition to Al 2 O 3 was proposed.Isopropylene production wastes are a loose grey mass with a volume mass of 0.85 g/cm 3 and the following chemical composition (% in matter calcined at
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