Correlation between the milling time and phase-structural state of ZrCrNi and ZrMn2 Laves phase alloys | Zendy

Yurii BASARABA | Zendy; T. M. Zasadnyy | Zendy

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Correlation between the milling time and phase-structural state of ZrCrNi and ZrMn2 Laves phase alloys

Author(s) -

Yurii BASARABA,

T. M. Zasadnyy

Publication year - 2013

Publication title -

chemistry of metals and alloys

Language(s) - English

Resource type - Journals

eISSN - 1998-8087

pISSN - 1998-8079

DOI - 10.30970/cma6.0251

Subject(s) - laves phase , materials science , alloy , diffraction , phase (matter) , crystallography , ball mill , crystal structure , hexagonal crystal system , hydrogen storage , hydrogen , metallurgy , chemistry , intermetallic , organic chemistry , physics , optics

The phase content of ZrCrNi and ZrMn2 alloys with initial hexagonal MgZn2 (С14) type of Laves phase structure after reactive milling in hydrogen was investigated by X-ray powder diffraction and energydispersive X-ray spectroscopy. Depending on the milling time, the structure of the ZrCrNi alloy, which now contains significant amounts of Fe, changes from MgZn2 type to MgCu2 and Th6Mn23 type structure after heat treatment.

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