ev d UDC 547.678The influence of the vibrowave action on the properties of some disperse systems used in the textile industry has been considered. It has been noted that excitation of nonlinear oscillation in the audio band under resonant conditions leads to an increase in the degree of dispersion of distributed systems and an increase in their colloid stability.The last few years have seen an enhanced interest in polymer composites (PC) as multiphase disperse (distributed) systems along with their traditional consideration as strengthened materials [1,2]. This is in accord with the general tendency in chemical technology largely oriented toward processes of obtaining products and materials in which the determining role is played by the degree of dispersion of distributed systems, the surface phenomena, the rheological properties of dispersions, the interphase interactions, etc. [3]. The urgency of investigating the dynamic behavior of multiphase, multicomponent disperse systems characterized by a multilevel inhomogeneity is connected with their appreciable sensitivity to external factors. Since heat and mass transfer is the basis of most processes of obtaining and processing polymers and PCs, new technologies that make it possible to intensify the heat and mass transfer along with restraining or decreasing power consumption seem to be the most promising.One of them is the wave technology based on effective conversion of vibrational and wave energy into energy of other kinds of motion [4]. In [5,6], it was shown that the use of nonlinear vibrations in the sound range of frequencies will make it possible to considerably intensify the processes of vibroagitation and dispersion in such liquidphase disperse systems as paintwork materials, dispersion of polymers (latexes and their mixtures), etc.The present paper considers the influence of the vibrowave action on multiphase composites used in manufacturing textile materials. As objects of investigation, we used: water and froth printing inks and dye solutions (with an original viscosity from 5 to 30 P) containing stiffeners of the type of starch, carboxylmethyl cellulose (CMC), and sodium alginates intended for printing cotton and cotton-lavsan cloths, mixtures of butadiene-styrene and acrylic latexes, as well as composites with activated carbon and aqueous solutions of polymers (polyacrylic acid, starch, gelatin) used for impregnating fibrous bases in obtaining nonwoven materials (lavsan/viscose). Since the aim of the investigation, along with intensification of the technological processes of coloring and printing fabrics as well as the impregnation of nonwoven materials, was improvement of the functional properties of the materials obtained, the estimation of the degree of dispersion of distributed particles, the stability of disperse systems, the quality of textile materials (colorability and color uniformity of fabrics, physicochemical properties of nonwoven cloths, and their sorption and filtering properties), and the decrease in the specific consumption of dyes ...