Duran, SemihCicek, Hikmet2026-03-262026-03-2620252468-023010.1016/j.surfin.2024.1055492-s2.0-85211078808https://doi.org/10.1016/j.surfin.2024.105549https://hdl.handle.net/20.500.14901/2489Çiçek, Hikmet/0000-0003-3038-4466; Duran, Semih/0000-0001-7107-1461Honeycomb-patterned hybrid Ti2AlN/TiNi films were produced on M2 and Inconel 718 substrates using a magnetron sputtering system. These films were subjected to heat treatment at 750 degrees C. In the XRD patterns of annealed films, crystalline formations corresponding to the Ti2AlN MAX phase (honeycomb edge) and super elastic TiNi (honeycomb inner) films were achieved. Mechanical properties were separately determined for each film area due to the honeycomb-patterned hybrid Ti2AlN/TiNi films having two different film areas. The film deposited on Inconel 718 exhibited the highest hardness values, with 10.2 GPa for the TiNi film and 25.4 GPa for the Ti2AlN film. Considering the results of wear tests performed both at room temperature and at high temperature, it was detected that the friction coefficients and wear rates of the films decreased by at least 50 % at high temperatures. Upon examining the adhesion performance of the films, the critical load values for the films deposited on M2 and Inconel 718 were 21 N and 26 N, respectively. According to the multi-pass scratch test results, it was observed that the film deposited on M2 maintained its structural integrity under a load of 7 N and exhibited better fatigue performance. This study proved that multi-coating components with different geometric architectures can be produced in a single layer. It also showed that such hybrid coatings exhibit good performance in machine components operating under various service conditions.eninfo:eu-repo/semantics/closedAccessHybrid FilmsHoneycombMax PhaseTINIMagnetron SputteringArticle