Microstructure of NiCoAlFeCuCr multi-component systems synthesized by mechanical alloying

▶ Multicomponent systems were produced by mechanical alloying. ▶ Longer milling times produced highly homogeneous alloys. ▶ FCC and BCC solid solutions are formed after milling times. ▶ Solid solutions are stable after heat treatment at 1273 K. The present study uses the mechanical alloying method t...

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Bibliographic Details
Published in:Journal of alloys and compounds 2011-06, Vol.509, p.S279-S283
Main Authors: Gómez-Esparza, C.D., Ochoa-Gamboa, R.A., Estrada-Guel, I., Cabañas-Moreno, J.G., Barajas-Villarruel, J.I., Arizmendi-Morquecho, A., Herrera-Ramírez, J.M., Martínez-Sánchez, R.
Format: Article
Language:English
Subjects:
Alloys
Ball milling
Body centered cubic lattice
Chromium
Face centered cubic lattice
Iron
Mechanical alloying
Metals and alloys
Powder metallurgy
Solid solutions
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Summary:▶ Multicomponent systems were produced by mechanical alloying. ▶ Longer milling times produced highly homogeneous alloys. ▶ FCC and BCC solid solutions are formed after milling times. ▶ Solid solutions are stable after heat treatment at 1273 K. The present study uses the mechanical alloying method to produce series of binary to senary alloys based on Ni, Co, Al, Fe, Cu, Cr. Milling times are 0, 10, 20 and 30 h and experiments are performed in a high energy ball mill. The results of this investigation show that an FCC solid solution is formed in all the studied systems, but a different phase formation response is presented in each system. A mixture of FCC and BCC solid solutions in quaternary to senary systems, is formed for short milling times. Apparently, the dissolution rate of Fe and Cr into the FCC solid solution, is low. Moreover, it is observed that additions of these elements promote the formation of BCC solid solution, which is stable at temperatures up to −1273 K. Finally, it is observed that the heat treated products present a mixture of FCC and BCC solid solutions with lattice parameters close to those found in the milled products.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2010.12.105