Raira Chefer Apolinario , Galtiere Corrêa Rêgo , Alisson Mendes Rodrigues , Diego David da Silva , Carlos Alberto Ospina Ramirez , Qing Zhou , Christian Greiner , Jéferson Aparecido Moreto , Haroldo Cavalcanti Pinto
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引用次数: 0
摘要
采用物理气相沉积-大功率脉冲磁控溅射和动态掠射角沉积相结合的方法,在AISI 304L钢表面制备了多层涂层。对涂层进行了广泛的分析,包括结构,电化学,机械和摩擦学。结果表明,该涂层呈现出周期性的锯齿状纳米结构,其子层呈波纹状。这种结构是通过对汽源角坐标的动态调制来实现的。当中间摆位移为±10°和±15°时,硬度从25 GPa(无衬底振荡,0°)上升到约33 GPa。当钟摆位移为±5°、±10°和±15°时,磨损性能最有效,磨损率显著降低。与0°和±25°条件相比,±10°条件下的磨损量分别约为7.5和5倍。在±5°,±10°和±15°的条件下,防腐效率超过98%,而在0°的条件下,暴露在0.5 mol L - 1硫酸溶液中,防腐效率仅为58%。
Corrosion and tribological behavior of Cr–Y–N multilayers grown by HIPIMS as a function of progressive changes in the coating architecture
This research investigated multilayer coatings created on AISI 304L steel by using physical vapor deposition associated with high-power impulse magnetron sputtering and dynamic glancing angle deposition. The coatings were subject to an extensive analysis, which included structural, electrochemical, mechanical, and tribological. The findings indicated that the coatings exhibited a periodic zig-zag nanostructure characterized by a corrugated pattern in the sublayers. This architecture was achieved through the dynamic modulation of the angular coordinates of the vapor source. The hardness an upward trend from 25 GPa (no substrate oscillation, 0°) to approximately 33 GPa for intermediate pendular displacements of ±10° and ±15°. Wear performance was most effective for pendular displacements of ±5°, ±10°, and ±15°, showcasing significantly reduced wear rates. The ±10° condition exhibited wear volumes approximately 7.5 and 5 times smaller compared to the 0° and ±25° conditions, respectively. The conditions of ±5°, ±10°, and ±15° exhibited a corrosion protection efficiency exceeding 98 %, whereas the 0° condition demonstrated an efficiency of merely 58 % when exposed to a 0.5 mol L⁻1 sulfuric acid solution.
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