RU2016105833A - FIRE-RESISTANT HIGH-STRENGTH COMPOSITE (HVAC) AND METHOD FOR ITS MANUFACTURE - Google Patents

Abstract

1. Refractory high-strength composite (HVAC), formed as a multilayer structure, by multi-pass batch rolling (MPP), characterized in that it consists of repeating packets of carbon layers (C) in the form of graphite or graphene, as well as metal layers, at least one of which is refractory, and / or metal alloys, and / or metal compounds, the composition of which (alloys, compounds) includes at least one refractory metal. 2. A composite according to claim 1, characterized in that between the layers of carbon and the refractory metal there are layers of carbide of this metal. A composite according to claim 1, characterized in that tantalum (Ta) is used as the metal. 4. A composite according to claim 2, characterized in that the refractory metal and its carbide are tantalum and tantalum carbide. A composite according to claim 1, characterized in that between the layers of carbon are layers of only carbide refractory metal. A composite according to claim 5, characterized in that between the carbon layers there are layers of only tantalum carbide (TaC). A composite according to claim 1, or 2, or 5, characterized in that the number of packages of carbon layers in the form of graphite or graphene, as well as metals and / or metal carbides, is one thousand or more per 1 (one) mm of thickness. A method of manufacturing a composite implemented in multi-pass batch rolling (MPP), characterized in that the initial package consists of three layers, the outer of which are metals (in the form of metal foils), at least one of which is refractory, and the inner layer is graphite ( in the form of graphite foil), and all subsequent packages consist of multilayer foils obtained in the previous rolling cycle, and during certain stages (cycles) of the MPP the composite turns out to be different

Claims (14)

1. Refractory high-strength composite (HVAC), formed as a multilayer structure by multi-pass batch rolling (MPP), characterized in that it consists of repeating packets of carbon layers (C) in the form of graphite or graphene, as well as metal layers, at least one of which is refractory, and / or metal alloys, and / or metal compounds, the composition of which (alloys, compounds) includes at least one refractory metal. 2. The composite according to claim 1, characterized in that between the layers of carbon and the refractory metal there are layers of carbide of this metal. 3. The composite according to claim 1, characterized in that tantalum (Ta) is used as the metal. 4. The composite according to claim 2, characterized in that the refractory metal and its carbide are tantalum and tantalum carbide. 5. The composite according to claim 1, characterized in that between the layers of carbon are layers of only carbide refractory metal. 6. The composite according to claim 5, characterized in that between the layers of carbon there are layers of only tantalum carbide (TaC). 7. The composite according to claim 1, or 2, or 5, characterized in that the number of packages of carbon layers in the form of graphite or graphene, as well as metals and / or metal carbides, is one thousand or more per 1 (one) mm of thickness. 8. A method of manufacturing a composite, implemented in multi-pass batch rolling (MPP), characterized in that the initial package consists of three layers, the outer of which are metals (in the form of metal foils), at least one of which is refractory, and the inner layer is graphite (in the form of graphite foil), and all subsequent packages consist of multilayer foils obtained in the previous rolling cycle, and during certain stages (cycles) of MPP on the composite, various additional physical action (pressure and / or temperature and / or electric and / or magnetic fields). 9. The method according to p. 8, characterized in that the rolling is cold (without heating the composite). 10. The method according to p. 8, characterized in that between the layers when folding the package, starting with the second cycle of addition, an additional layer of graphite is added (in the form of a foil): once, or several times. 11. The method according to p. 8, or 10, characterized in that due to the cold MPP, the thinnest graphite layers are thinned to 1-3 monoatomic hexagonal layers without heating. 12. The method according to p. 9, characterized in that in the process of cold rolling at the metal-carbon boundaries, layers of metal carbide are formed due to cold diffusion under pressure. 13. The method according to p. 8 or 10, characterized in that after MPP, the thinning of graphite layers to 1-3 monoatomic hexagonal layers occurs with additional heating due to the mutual thermal diffusion of carbon and metal atoms and the formation of metal carbide. 14. The method according to p. 8, characterized in that for the recrystallization of graphite into high-quality hexagonal crystals and the "stitching" of small crystals into large films during and / or after the last rolling (last MPP cycle) the composite has an additional physical effect (constant and / or an alternating magnetic and / or electric field, and / or pressure, and / or heating).