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Towards understanding the influence of Mg content on phase transformations in the La3-xMgxNi9 alloys by in-situ neutron powder diffraction study

Authors :
Volodymyr A. Yartys
Roman V. Denys
Chubin Wan
Source :
Progress in Natural Science: Materials International, Vol 31, Iss 5, Pp 698-704 (2021), Progress in Natural Science
Publication Year :
2021
Publisher :
Elsevier BV, 2021.

Abstract

The present work is focused on the studies of the phase-structural transformations in the La3-xMgxNi9 (x ​= ​1.0, 1.1 and 1.2) alloys as active materials of negative electrodes in the Nickel-Metal Hydride (Ni/MH) batteries. The phase equilibria and phase-structural transformations in the alloys were probed by in situ neutron powder diffraction (NPD) at the temperatures ranging from 300 ​K to 1273 ​K using the measurements of the equilibrated alloys at 8 setpoint temperatures of 300, 973, 1073, 1123, 1173, 1223, 1248 and 1273 ​K. Prepared by induction melting initial alloys were found to be multi-phase structured, containing up to 6 individual intermetallic compounds with different stoichiometric compositions. With the increase of the temperature and holding time, various transformations took place in the studied alloys. These included the formations and transformations of super-stacking intermetallics with variable ratios (La ​+ ​Mg)/Ni, 1:3, 2:7 and 5:19. With increasing temperatures, several systematic changes took place. (a) Abundances of (La,Mg)2Ni4 AB2 and (La,Mg)Ni3 AB3 type intermetallics gradually decreased before they melted/decomposed above 1073 ​K; (b) The (La,Mg)2Ni7 A2B7 type intermetallics began to decrease in abundances above 1123 ​K; (c) The transformation in the (La,Mg)5Ni19 intermetallics from 3R to 2H proceeded above 1223 ​K. The increase of Mg content had no obvious influence on (La,Mg)2Ni4 and (La,Mg)2Ni7 phases, and corresponding reactions R1 and R3 took place at the same temperatures as in the La–Ni system. However, with increasing Mg content the melting point of (La,Mg)5Ni19 phase increased while the melting point of the (La,Mg)Ni3 phase it decreased, leading to the variation of the reaction temperatures of the corresponding processes. The present study will assist in optimizing phase-structural composition of the alloys in the La–Mg–Ni system which contain Mg-modified layered structures by tailoring the high temperature annealing conditions.

Details

ISSN :
10020071
Volume :
31
Database :
OpenAIRE
Journal :
Progress in Natural Science: Materials International
Accession number :
edsair.doi.dedup.....f496a4ac28399e4a0d072f35ae88d168
Full Text :
https://doi.org/10.1016/j.pnsc.2021.06.008