| Abstrakt: |
One of the promising directions for saving electricity and reducing the duration of the technological cycle is the realization of synthesis processes based on the use of exothermic reaction energy. The purpose of this work is to develop consolidated materials containing ceramic nanostructure and innovative technologies for their preparation. self-propagating high-temperature synthesis - compaction The work is devoted to the topical problem of obtaining multi-functional, nanostructured materials based on the Ti-B-C-N system (Ti-BN, Ti-BN-C, Ti-B4C), which will have qualitatively improved properties, such as ductility, compressive strength, wear resistance, abrasion resistance, Resistance in aggressive areas, as well as being able to work in radiation conditions and be able to protect objects from both radiation and dynamic loads with high intensity and energy. In addition, deficit, expensive, limited materials and complex technologies will not be used to obtain ceramic material. As a result, the product produced by us will be competitive, cheap, easy to manufacture both from a technological and economical point of view. They will not have a high cost, will not require a large expenditure of material, energy and hardware resources, and will be characterized by high viability. The materials developed in the AR-22-955 project can be successfully used as materials for the protection of equipment, including police, banking and other - from damaging elements with increased penetration, as well as for protecting space objects from damaging elements with increased penetration and radiation. [ABSTRACT FROM AUTHOR] |
