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Consolidation behavior of L12 phase (Al + 12.5 at.% Cu)3Zr powder with nanocrystalline structure during CIP and subsequent sintering |
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| Authors: | Kyoung Il Moon Hyun Seon Hong Kyung Tae Hong Kyung Sub Lee Seon Jin Kim |
| Affiliation: | a Division of Plasma Technology R&D, Production Technology Center, KITECH, Chonan 330-825, Republic of Korea b Center for Plant Engineering, Institute for Advanced Engineering, Gyeonggi-do 449-863, Republic of Korea c Division of Metal, Korea Institute of Scientist and Technology, Seoul 136-791, Republic of Korea d Division of Materials Science and Engineering, Hanyang University, Seoul 133-791, Republic of Korea |
| Abstract: | The mechanically alloyed (Al + 12.5 at.% Cu)3Zr powders were consolidated by cold isostatic pressing (CIP) and subsequent sintering. Effects of CIP pressure and sintering temperature on the stability of metastable L12 phase and nanocrystalline structure were investigated. Before sintering, the powders were CIPed at 138, 207, 276, and 414 MPa. The relative densities of the CIP compacts were not greatly affected by the CIP pressure. However, the L12 phase of the specimen CIPed at pressures greater than 276 MPa was partially transformed into D023. The optimum consolidation conditions for maintaining L12 phase and nanocrystalline microstructure were determined to be CIP at 207 MPa and sintering at 800 °C for 1 h for which the grain size was 34.2 nm and the relative density was 93.8%. Full density specimens could be prepared by sintering above 900 °C, however, these specimens consisted of L12 and D023 phases. The grain sizes of all the specimens were confirmed by TEM and XRD, and were found to be less than 40 nm. This is one of the smallest grain sizes ever reported in trialuminide intermetallic compounds. |
| Keywords: | A Trialuminides based on ZrAl3 A Nanostructured intermetallics (including preparing methods) B Thermal stability C Sintering |
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