Investigation Of The Influence Of Technological Factors Of Magnetic Treatment Of Polymer Coatings On Their Adhesion And Physical And Mechanical Properties

Development of an effective technology for obtaining composite polymer coatings by electromagnetic treatment based on the regularities revealed in the study of the effect of an external magnetic field on the physical and mechanical properties of polymer and composite coatings and the development of an optimal composition and modes of electromagnetic treatment that provide high adhesive, strength, and protective properties. contributing to the increase in the reliability and durability of coatings in climatic and other operating conditions. Research and clarification of the effect of the electromagnetic field during the processing of polymer coatings in the technological stages of their production; investigation of the influence of the type and directions of the lines of force of the electromagnetic field on the properties of unfilled polymer and filled composite polymer coatings; study of the influence of the type of substrate on the adhesive properties of unfilled polymer and filled composite polymer coatings, treated in an electromagnetic field; study of the influence of the intensity and time of exposure to an electromagnetic field on the adhesive and physical and mechanical properties of unfilled polymer and filled composite polymer coatings; study of the influence of the electromagnetic field on the physical and mechanical properties of composite polymer coatings containing mineral fillers of various types and nature; study of the influence of the degree of filling the compositions with mineral ingredients on the physicomechanical properties of coatings formed during processing by an electromagnetic field; a comprehensive analysis of the results obtained and the development of optimal technological modes for obtaining composite polymer coatings by electromagnetic treatment; development of an effective technology for obtaining composite polymer coatings based on the identified optimal technological modes of their electromagnetic treatment [1, 2, 3].