The hard chromium coatings have drawn vast attention due to their fascinating tribological behavior, however, there is a serious determination to alleviate their industrial applications. In this assay, an attempt is made to evaluate whether the electrodeposited Co–P–MoS₂ films with various loadings of MoS₂ nanoparticles, 0–20 g/L, fabricated under different current densities from 20 to 35 A dm⁻² are suitable alternative tribological coatings to hard chromium. The tribomechanical behavior of layers was assessed using Vickers microhardness and pin-on-disc surveys. Co–P-10 g/L MoS₂ film obtained at 25 A dm⁻² offers the highest wear resistance. An increase of 18% in microhardness, a decrease of 50% in the coefficient of friction, and a decrease of 95% in wear volume loss are obtained.

硬铬涂层的引人入胜的摩擦学特性引起了人们的广泛关注，但是，有一个严肃的决心要减轻其工业应用。在该测定中，试图以评估是否电解钴磷-MOS _2层薄膜用的MoS的各种负载₂纳米颗粒，0-20克/升，不同电流密度下制造20-35甲分米^-2是合适替代硬质铬的摩擦涂层。使用维氏显微硬度和针对光盘的调查评估了层的摩擦力学行为。在25 A dm ^-2下获得的Co–P-10 g / L MoS ₂膜提供最高的耐磨性。显微硬度提高了18％，摩擦系数降低了50％，磨损量损失降低了95％。