The developed mathematical models to calculate the yield strength of aluminum alloys can significantly reduce the time for the selection of alloys and processing techniques to achieve the required level of properties.
Mini-mills are designed for cost-effective production of in-line needed quantities of round rods from any kind of deformable metals and alloys through the hot radial-shearing deformation method.
Existing seamless pipes production technology monitoring. Quantitative assessment of pipes rejection according to the specific external and internal defects. Layout designing of the forming and piercing mill deformation zone profile providing quality sleeve producing.
Development of methods of doping, allowing to reduce the rate of creep of metallic materials at high temperatures, reduce the liquid-metal corrosion and eliminate the grain boundary brittleness
The prediction of changes various indicators in the outside of investigated of areas of the factor space has been implemented. Results of scientometric forecasts have been determined.
In accordance with the State contract number 9253r/14958 from 06.05.2011 of design compact mill MAMP-10, designed for high-helical rolling billets of refractory metals in vacuum.
The large throughput fabrication of BN nanotubes and nanosheets and their smart utilization for reinforcement of diverse metallic and ceramic composite materials and coatings for structural and medical applications is our ultimate goal.
Through-type furnaces are the modern units providing effective heating of metal. Use of high-quality heat-insulating materials and modes of heating allows to increase their efficiency significantly.
Development and optimization of resource- and energy-saving technologies of metal processing, and development of physical and mathematical models of deformation and thermomechanical processing of traditional and innovative metallic and composite materials.