THERMALLY STABLE COATINGS: METHODS AND TECHNIQUES FOR INVESTIGATING THEIR PROPERTIES

This article examines in detail the modern methods and techniques for studying the physicochemical and chemical properties of thermally stable coatings. These coatings are essential for extending the life cycle and efficiency of materials exposed to high-temperature environments in various industrial applications. The article focuses on the role of thermal analysis, X-ray diffraction (XRD), scanning electron microscopy (SEM), spectroscopic techniques, and microhardness testing in determining coating performance. Additionally, it emphasizes oxidation behavior, thermal degradation patterns, and structural stability under stress. Through a systematic evaluation of experimental data and scientific literature, this study aims to establish best practices for the characterization of heat-resistant coatings and presents a scientific framework for improving coating technologies. Moreover, the paper offers practical recommendations for improving durability, performance, and the integration of such coatings in industrial sectors like aerospace, metallurgy, and energy systems.