Research of the physical and mechanical properties of high temperature resistant copolymer coating
Keywords:Derivatographic indicators, Acrylic emulsion, Heat-resistant coating, Thermomechanical analysis
In the practical experiments of this research work, various additives and fillers added to increase the heat resistance of the acrylic-styrene composition coating. In order to study the thermal stability of the obtained sample, as well as to draw the appropriate conclusion, the derivatographic and thermomechanical parameters of the coating sample were obtained and analyzed in special measuring instruments. According to the results of the analysis, it found that the resistance indicators of the acrylic - styrene coating sample obtained in practical experiments are positive.
Shaikulov, B. K., Nurkulov, F. N., & Jalilov, A. T. (2022). Analysis of derivatographic results of acrylic copolymers, Universum magazine, 9(99), 59-63.
Guo, C., Jin, C., Jin-hui, P. & Run-dong, W. (2010). Green evaluation of microwave assisted leaching process of high titanium slag on life cycle assessment. China, 198-204.
Ernst, W. S., Havens, I. F. & Wilson, H. H. (1958). Effects of the Exchangeable Ion on the Dehydration Properties of Vermiculite. Journal of the American Ceramic Society, 238.
Lobasova, M. S. (2009). Textbook for practical classes Heat and mass transfer, 94.
Allahdini, A., Jafari, R., & Momen, G. (2022). Transparent non-fluorinated superhydrophobic coating with enhanced anti-icing performance. Progress in Organic Coatings, 165, 106758.
Ruziev, R., Nurkulov, F., Rakhmankulov, A., & Djalilov, A. (2023). Investigation of the properties of a coating based on an acrylic monomer. Science and innovation, 2(A5), 216-218.