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Stability of composite materials NiAl-refractory metal with cellular structure
The structure and mechanical properties of NiAl-W and NiAl-W-Mo composite materials (CM) obtained by sintering from powders are studied. Comparative analysis of the effect of hot compressive deformation of a compact material at 1000-1300 deg C on the integrity of the microspecimens and of the tungst...
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| Published in: | Metal science and heat treatment 2006-05, Vol.47 (5-6), p.255-260 |
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| Main Authors: | , |
| Format: | Article |
| Language: | English |
| Online Access: | Get full text |
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| Summary: | The structure and mechanical properties of NiAl-W and NiAl-W-Mo composite materials (CM) obtained by sintering from powders are studied. Comparative analysis of the effect of hot compressive deformation of a compact material at 1000-1300 deg C on the integrity of the microspecimens and of the tungsten shells on NiAl granules in CM with cellular structure is performed. The thermokinetic stability of the grain structure of unalloyed nickel aluminide NiAl and of a NiAl-W composite material with cellular structure is investigated. The temperature of the beginning of recrystallization of the NiAl intermetallic is determined. A map of structural states is plotted in the 'temperature-operating time' coordinates for CM with cellular structure. The local chemical composition of the 'NiAl-refractory metal' phase boundary is studied in CM with cellular structure and without it. The effect of the structural state of CM on the yield strength in compressive tests at 1000 deg C is determined. The oxidation resistance at 1000-1300 deg C is studied and a treatment approaching the oxidation resistance of CM with cellular structure at 1000-1300 deg C to the level of high-temperature strength of unalloyed NiAl and of its alloy with 4 wt.% Hf is suggested. |
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| ISSN: | 0026-0673 |