Influence of Thickness on the Structure and Properties of TiAl(Si)N Gradient Coatings
Kassymbaev A. Myakinin A. Uazyrkhanova G. Belisarova F. Sagidugumar A. Kimossov R.
June 2025Multidisciplinary Digital Publishing Institute (MDPI)
Coatings
2025#15Issue 6
Enhanced hard coatings with exceptional mechanical and thermal qualities have prompted substantial study into multicomponent nitride systems. TiAl(Si)N coatings have emerged as viable possibilities owing to their remarkable hardness, thermal stability, and oxidation resistance. This work involved the fabrication of thickness-varied TiAl(Si)N gradient coatings using reactive magnetron sputtering, employing a controlled modulation of aluminum and silicon content across the film thickness. Three samples, with thicknesses of ~400 nm, ~600 nm, and ~800 nm, were deposited under uniform Ar/N2 gas flow ratios, and their microstructural, mechanical, and tribological characteristics were rigorously examined. SEM investigation demonstrated a significant change across thicknesses. XRD results validated the emergence of a predominant cubic TiAl(Si)N phase alongside a secondary hexagonal AlN phase, signifying partial phase segregation. The nanoindentation results indicated that Sample 2 exhibited the maximum hardness (~38 GPa) and Young’s modulus (~550 GPa) due to an optimized equilibrium between solid solution strengthening and nanocomposite production. Tribological testing revealed that Sample 1 displayed the lowest and most consistent friction coefficient, corresponding to its superior H/E and H3/E2 ratios, which signify improved elasticity and resistance to plastic deformation. The findings emphasize that the implementation of a compositional gradient, especially in the distribution of Si and Al, markedly affects the microstructure and performance of TiAl(Si)N coatings. Gradient structures enhance the microstructure, optimize hardness, and increase the friction coefficient. Ongoing refinement of gradient profiles and deposition parameters may further improve the characteristics of TiAl(Si)N coatings, facilitating their wider industrial use.
ceramics , gradient thin films , hardness , multilayer coatings
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Department of Applied Physics, D. Serikbayev East Kazakhstan Technical University, 19 D. Serikbayev St., Oskemen, 070004, Kazakhstan
Institute of Materials Engineering LLP, Astana, 010000, Kazakhstan
Department of Theoretical and Nuslear Physics, Al-Farabi Kazakh National University, Almaty, 020000, Kazakhstan
Department of Applied Physics
Institute of Materials Engineering LLP
Department of Theoretical and Nuslear Physics
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