Abstract
<jats:p>The effect of a thin-layer antifriction coating based on immiscible components Cu–Mo applied by magnetron sputtering on a sample of titanium alloy VT6 on wear resistance during running-in in the friction pair "titanium alloy VT6 – steel SHX15" is investigated. A comparison with a sample made of VT6 alloy without an applied antifriction coating is carried out. Coatings when sprayed in an argon and argon atmosphere with the addition of nitrogen. The adhesive strength of the coating was determined by scribing. Dependences of elemental composition, microhardness, coefficient of friction and volumetric wear on the concentration of nitrogen in a mixture with argon during the application process were obtained. Analysis of the results obtained showed that coatings with a lack of nitrogen in the films have the highest hardness and wear resistance.</jats:p> <jats:p>研究了在鈦合金VT6試樣上磁控濺鍍製備基於Cu-Mo不混溶組分的薄層減摩塗層,對「鈦合金VT6-SHX15鋼」摩擦副磨合過程中耐磨性的影響。並與未塗覆減摩塗層的VT6合金試樣進行了比較。研究了在氬氣和添加氮氣的氬氣氣氛中噴塗塗層的情況。透過劃線法測定了塗層的結合強度。研究了塗層元素組成、顯微硬度、摩擦係數和體積磨損量與噴塗過程中氬氣混合氣中氮濃度的關係。結果分析表明,薄膜中氮含量較低的塗層具有最高的硬度和耐磨性。</jats:p>