FIELD: metallurgy.
SUBSTANCE: present invention relates to powder metallurgy, in particular to a mixture for producing a wear-resistant material by SHS method, comprising titanium powder, a carbon-containing component - soot, copper powder, wherein components are taken in following ratio, wt. %: 54–67 titanium powder, 9–13 soot, 20–37 copper powder. Invention also relates to a method of producing a wear-resistant material, involving preparation of an exothermic mixture of components of said charge.
EFFECT: technical result is obtaining by SHS method of new materials of increased wear resistance on the basis of titanium carbide and formation of titanium carbide titanium-copper intermetallides (titanium kupridides) as a binder, which provides high economic efficiency when using parts from such material in various industries.
2 cl, 3 tbl, 2 ex
| Title | Year | Author | Number |
|---|---|---|---|
| METHOD OF PRODUCING COMPOSITE METAL ALLOY CONTAINING TITANIUM CARBIDE | 2020 |
|
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| METHOD FOR PRODUCING COMPOSITE ALUMINIUM-MATRIX MATERIALS CONTAINING TITANIUM CARBIDE BY SELF-PROPAGATING HIGH-TEMPERATURE SYNTHESIS | 2022 |
|
RU2792903C1 |
| BLEND TO PRODUCE DIAMOND-BEARING MATERIAL | 1992 |
|
RU2027790C1 |
| METHOD FOR PRODUCTION OF GRADIENT MATERIALS BASED ON MAX-PHASES OF Ti-Al-C SYSTEM | 2022 |
|
RU2786628C1 |
| COMPOSITION MATERIAL | 1991 |
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RU2044787C1 |
| METHOD OF PRODUCING COMPOSITE MATERIALS BASED ON TI-B-FE, AIN MODIFIED NANOPARTICLES | 2020 |
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| METHOD FOR PRODUCING COMPOSITE ALUMINIUM MATRIX MATERIALS CONTAINING CHROMIUM BORIDE COMPONENTS USING SELF-PROPAGATING HIGH-TEMPERATURE SYNTHESIS | 2022 |
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RU2809613C1 |
| METHOD FOR WEAR-RESISTANT SURFACING | 1988 |
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SU1594808A1 |
| METHOD OF PRODUCTION OF CAST ALUMINIUM-MATRIX COMPOSITE ALLOY | 2013 |
|
RU2555321C2 |
