About the influence of ceramic coatings on the stress-strain characteristics of the alloy Д16АТ (Al-Cu-Mg)

Nowadays the most part of the machine elements is subjected to different technological effects on the stage of production. These effects are intended to improve the operational characteristics of the machine elements. One of such effect is the formation of the ceramic coating on the product surface. Ceramic coating has very high wear resistance, low coefficient of friction, but its operational characteristics in conditions when the sample with coating is subjected to loading with variable sign are unknown. The method of investigation of relationships of inelastic deformation of the samples with nonhomogeneous structure of metal alloy Д16АТ in conditions of periodic loading are suggested in the paper. The research methodology includes a step-stress test in the cycle, and registration of the effects of non-equilibrium strain. The study represents the comparative analysis of samples with removed and modified surface layer. Layer is modified by micro-arc oxidation (MAO) and removed by chemical etching in alkaline sodium hydroxide solution (15% NaOH). It is proved that the samples with coating demonstrate higher stress under which irreversible phenomena occur in comparison with the samples with removed surface layer. It is shown that the stress at which there are irreversible phenomena in coated specimens is 20% higher than that of the samples with a removed surface layer.

Surface layer, micro-arc oxidation, elastic-plastic strain, fatigue resistance.