FORMATION OF DIFFUSION LAYER ON A WORKING SURFACE OF A TOOL, WORKING IN THE CONDITIONS OF DYNAMIC WEAR

The paper is devoted to the investigations of the structure and properties of the diffusion layer of the samples after boriding and boron-chrome plating. It has been revealed that when boriding, diffusion layers are formed with a high content of high-boride phase; it reduces the plasticity of the layer. The research on boron diffusion saturation of the working surface of the punch for cutting goals has been carried out. It has been established that during the work under dynamic loads they experience friction. The receiving of fragile boride layers does not cause the increase of operational properties of such products. It has been found out that the alloying of chromium boride layers reduces the fragility of the diffusion layers. By optimizing the process of boronchrome plating for these products the following parameters have been identifi ed: the composition of the coating, the temperature of diffusion saturation, exposure time. It has been proposed to combine chemicothermal treatment of punches in coating and heating of products for hardening. The possibility of replacing the alloyed steel by carbon steel with the investigated diffusion coating has been shown.

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