The development of the production technology of metallic materials strenghtened with nanosized bubbles

This project focuses on the development of the production technology of metallic materials strengthened with nanosized bubbles, which can be formed by the internal oxidation of fine dispersed graphite particles. The reaction of dissolved oxygen with graphite yields the gas products (CO, CO2), which cannot be dissolved in crystal lattice of the metal. The gas products are meshed in the space previously occupied by graphite and they have a greater specific volume than solid graphite, thus establishing the compressive stresses in the metallic matrix and consequently causing the strengthening effect. On the other hand, such stress field can react with sliding dislocation, whereby they impede the dislocation motion. The aim of this project is to determinate the production technology of the metallic materials strengthened with nanosized bubbles, further to define the influence of bubbles on the strengthening properties of this material and to analyse the possible interaction between sliding dislocation and stress field around the bubbles.