FURANIUM COMPOSITE MATERIAL BASED ON TALL OIL AND ITS FATTY ACIDS

Abstract

A new polymer composite material based on furfural-acetone monomer, crude tall oil and its fatty acids, which are waste from the pulp and paper industry, was obtained. In this paper, the effect of crude tall oil and its fatty acids on furfural-acetone monomer binder in a composite material is considered. The composition for the composite material, consisting of FA monomer, filler and catalyst p-toluenesulfonic acid, was modified with crude tall oil additives or tall oil fatty acids. It was shown that the compressive strength of composite samples after 30-day exposure at room temperature, obtained with a reduced amount of furfural-acetone monomer and the introduction of 100% fatty acids of tall oil from the furfural-acetone monomer content, increases by 37%, with the introduction of 150% fatty acids of tall oil, the strength increases slightly - by 1.5%, but the density increases significantly and water absorption decreases with respect to the standard sample. Additives of crude tall oil (up to 150% of furfural-acetone monomer) lead to an increase in density, a decrease in water absorption - by 84%, but reduce the compressive strength of samples by 12%. The improvement in the physicochemical properties of the composite material was explained by the alleged chemical interaction of tall oil fatty acids with mono- and difurfurilideneneacetone (furfural-acetone monomer), which takes place with the formation of new polymers. This is confirmed by DTA data, chromatograms of the furfural-acetone monomer - fatty acids of tall oil (TLC) mixture, and IR spectra. The use of fatty acids of tall oil or crude tall oil, non-expensive, non-toxic products of natural origin in the composite material, can reduce the consumption rates of furfural-acetone monomer and improve the quality of the polymer.