Investigation of the physical and mechanical properties of the heterogeneous structure of the Mn - Cu alloy system

The era of automation has come, a new type of machine production that frees people from work in production and automates technological processes, mechanisms and machine control. Automation not only increases the efficiency of any production, but also opens the way to achieve the best results. This article deals with the physical and mechanical properties of the heterogeneous structure of the mortar system. Regardless of whether technological processes are automated, mechanized, or group processing is used, automated site tuning activities remain labor-intensive and performed using manual labor. Considering the types of electrical technical materials, their properties, we reveal their advantages and use them in production facilities. Non-ferrous metals are very important in technology. Because there is a demand for them based on their physical and mechanical properties. Scientific research was conducted at the Department of Physics of the International Kazakh-Turkish University named after Khoja Ahmet Yasawi as a base. The method of heating, melting, processing, evaluation and analysis of alloys was used as a scientific method. Experimental studies were carried out on copper alloys with 45-85% manganese, 50 and 60% alloys doped with various elements and their combination in concentrations up to 10. Repeated measurements were made to obtain high accuracy. Structural and phase changes in metallic materials during extreme external effects (strong plastic deformation, high pressure, temperature, radiation, aggressive environment) were studied. We studied structural and phase changes in metallic materials during extreme external influences (strong plastic deformation, high pressure, temperature, radiation, aggressive environment).