TY - GEN A1 - Aissani, Linda A1 - Fellah, Mamoun A1 - Belgroune, Ahlam A1 - Obrosov, Aleksei A1 - Samad, Mohammed Abdul A1 - Alhussein, Akram T1 - Effect of O2 flow rate on the structure, wettability and tribo-mechanical behaviour of Zr-O-N thin films T2 - Surfaces and Interfaces N2 - Structural and tribo-mechanical properties of Zr-O-N films deposited by reactive magnetron sputtering in a mixture of Ar (flow rate = 80 sccm), N2 (flow rate = 20 sccm) and O2 with a varying flow rate of 0 to 12 sccm were investigated. The films were characterized using scanning electron microscopy, energy dispersive x-ray analysis, atomic force microscopy, nanoindentation and wear tests. Oxygen content have a significant effect on the microstructure, wettability, tribo-mechanical properties of Zr-O-N films. The Zr-O-N films showed a dense structure with a mixture of zirconium oxides and nitrides and the preferred orientation changed from (111) ZrN to (200) ZrN with increasing O2 flow rate. The ZrON film, deposited at an oxygen flow rate of 10 sccm exhibited the highest contact angle (147°), the highest hardness (27.1 GPa), the lowest friction coefficient (0.36) and the lowest wear rate (5.8 × 10−7 mm3.Nm−1). The improvement in the tribological performance of the ZrON film deposited at 10 sccm is attributed to the improved hardness and increased H/E and H3/E2 ratios, due to the formation of a hard solid solution by the diffusion of oxygen. KW - Magnetron sputtering KW - Zr-O-N KW - Microstructure KW - Wettability KW - Surface Energy KW - Nanoindentation KW - Friction Y1 - 2021 UR - https://www.sciencedirect.com/science/article/abs/pii/S2468023021005186#! U6 - https://doi.org/10.1016/j.surfin.2021.101441 SN - 2468-0230 VL - 26 ER - TY - GEN A1 - Salhi, Faiza A1 - Aissani, Linda A1 - Fellah, Mamoun A1 - Chadli, Abdel Hakim A1 - Cheriet, Abderrahmane A1 - Belgroune, Ahlam A1 - Nouveau, Corinne A1 - Obrosov, Aleksei A1 - Samad, Mohammed Abdul A1 - Alhussein, Akram T1 - Experimental investigation of structural, wetting, mechanical and Tribological properties of TiZrN thin films deposited by magnetron sputtering T2 - Surfaces and Interfaces N2 - TiZrN thin films were deposited on Si (100) wafers and XC100 steel substrates by reactive R.f. magnetron sputtering using titanium and zirconium targets in an Ar-N2 mixture atmosphere to evaluate the effect of varying Zr content (0 to 22.2 at.%), on the film structure, surface wettability, hardness and wear resistance. The presence of different phases such as TiN, ZrN, and ZrO2 were confirmed by XRD analysis. Results showed that, the lattice parameter and film thickness increased while the crystallite size and average roughness decreased with increasing Zr content. Total surface energy between the film surface and testing liquids decreased with the addition of Zr. TiZrN film containing 18.3 at.% of Zr showed the lowest surface energy of 38.7 mN/m, indicating its hydrophobicity. The nanoindentation measurements, friction and wear tests showed that the TiZrN thin film containing 18.3 at.% of Zr had the best tribo-mechanical performance. The TiZrN (18.3 at.% Zr) film exhibited the lowest friction coefficient (0.31), and the lowest wear rate (6.65 × 10−5 mm3/Nm), which corresponds to the highest H/E ∼ 0.139, and H3/E2 ∼ 0.49 GPa ratios. The improvement in the tribo-mechanical properties is attributed to the solid solution strengthening due to the incorporation of Zr atoms in TiN system, which results in the highest hardness of 25 GPa for TiZrN (18.3 at.% Zr) film. KW - TiZrN film KW - Magnetron sputtering KW - Structure KW - Surface wettability KW - Mechanical properties KW - Wear resistance Y1 - 2021 UR - https://www.sciencedirect.com/science/article/abs/pii/S2468023021005964 U6 - https://doi.org/10.1016/j.surfin.2021.101519 SN - 2468-0230 VL - 27 ER - TY - GEN A1 - Belgroune, Ahlam A1 - Aissani, Linda A1 - Alhussein, Akram A1 - Zaabat, Mourad A1 - Obrosov, Aleksei A1 - Rtimi, Sami T1 - In Vitro Corrosion and Wear Investigation of Multifunctional TiAlMoN Sputtered Coatings on Cold-Sprayed SS316L T2 - ACS Applied Engineering Materials N2 - Although TiAlN has been thoroughly studied, there is still an ongoing demand for developing new-based TiAlN films with enhanced protection efficiency for a long lifetime and high load-bearing capability linked to friction and corrosion mechanisms. This work aims to present the effect of Mo content by studying the structural tribo-mechanical, wettability, and corrosion behaviors in TiAlMoN coatings deposited by magnetron sputtering on cold-sprayed stainless steel 316L substrates. TiAlMoN coatings showed a dense columnar structure with the coexistence of titanium and molybdenum nitrides, and TiN (200) preferred orientation changed to TiN(111) with increasing Mo content. The surface energy of the TiAlMoN coatings decreased gradually with the increase in Mo content. The TiAlMoN coating containing 16.09 atom % Mo possesses the highest hardness and Young’s modulus (29.5 and 334.5 GPa, respectively) and the maximum H/E and H3/E2 of 0.092 and 0.237, respectively. Formations of tribolayer oxides reduced the friction and enhanced the wear resistance of TiAlMoN coatings in atmospheric conditions and reached the minimum values of 0.3 and 0.849 × 10–6 mm3/N, respectively, at 16.09 atom % of Mo under 5 N load charge. Corrosion examination in simulated seawater revealed that TiAlMoN coating-coated SS316L exhibited a significant positive shift of about −16 mV in corrosion potential with a notable reduction in corrosion current density (1.41 nA/cm2), confirming the improved corrosion performance. The combination of both cold spray and magnetron sputtering techniques for producing this kind of component is shown to have great potential in processing applications. KW - Magnetron sputtering KW - Cold spray KW - TiAlMoN coating KW - Wettability KW - Tribo-mechanical properties KW - Corrosion resistance Y1 - 2024 UR - https://pubs.acs.org/doi/10.1021/acsaenm.3c00672 U6 - https://doi.org/https://doi.org/10.1021/acsaenm.3c00672 SN - 2771-9545 VL - 2 IS - 2 SP - 345 EP - 359 ER -