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METALLURGY AND PROPERTIES OF ADVANCED NiAl-Mo EUTECTICS
- 1.0485071 - ÚFM 2018 RIV CZ eng C - Konferenční příspěvek (zahraniční konf.)
Barták, Tomáš - Kuchařová, Květa - Záležák, Tomáš - Dlouhý, Antonín
METALLURGY AND PROPERTIES OF ADVANCED NiAl-Mo EUTECTICS.
METAL 2010: 19TH INTERNATIONAL METALLURGICAL AND MATERIALS CONFERENCE. Ostrava: TANGER LTD, 2010, s. 818-821. ISBN 978-80-87294-17-8.
[International Conference on Metallurgy and Materials METAL 2010 /19th./. Rožnov pod Radhoštěm (CZ), 18.05.2010-20.05.2010]
Grant CEP: GA ČR(CZ) GA202/09/2073
Výzkumný záměr: CEZ:AV0Z20410507
Klíčová slova: reinforced aluminum-alloys * mechanical-properties * creep * vim * intermetallic * re-melting
Obor OECD: Materials engineering
A NiAl-Mo eutectic alloy was melt from 99,99% purity components and cast by the drop casting technique. The drop-cast ternary alloy (nominal composition of Ni-45Al-9Mo at. %), was re-melted and directionally solidified using a high temperature optical floating zone furnace. A resulting in-situ composite consists of Ni-45,2Al matrix and Mo-10Al-4Ni fibers, all in at. %. The volume fraction of 14% Mo-fibers stems from the eutectic composition. Spacing and a diameter of Mo-fibers can be controlled within certain limits using different growth rates of the crystals. Microstructural parameters of the as-cast crystals were assessed by light microscopy, scanning and transmission electron microscopy. Backscatter diffraction shows that the NiAl-matrix and the Mo-fibers are both 001 -oriented with respect to the axis of the cylindrical rods. Preliminary creep experiments confirmed an immense improvement of high temperature strength due to the fine distribution of Mo-fibres. The amount of strengthening in terms of minimum creep rate can be as high as 7 orders of magnitude. Post-mortem transmission electron microscopy experiments provided evidence that creep in the temperature range of 800-900 degrees C results in an extensive formation of subgrain boundaries. The strengthening effect is very likely associated with the reactions between subgrain boundaries and fine Mo-fibres.
Trvalý link: http://hdl.handle.net/11104/0280174
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