Effect of alloy composition on the structure of Zr based metal alloys

B. S. Chao, R. C. Young, S. R. Ovsillnsky, D. A. Pawlik, B. Huang, I. S. Im, B. C. Chakoumakos

Research output: Chapter in Book/Report/Conference proceedingChapterpeer-review

Abstract

The structures of Ovonic multi-element, multi-phase Zr-based transltlon metal alloys for hydrogen storage are studied. The alloys are designed to be multi-phase materials. The hexagonal and diamond cubic structures, known as C14 and CIS Laves structures respectively, are the two major hydrogen storage phases in the alloys. In both C 14 and CIS structures, Zr and Ti are the elements typically occupying the hydride former (A) sites and V, Cr, Mn, Fe, Co and Ni the catalytic (B) sites. Based on the application of Ovshinsky's design principles for disordered materials, both A and B sites are compositionally disordered by the corresponding elements in cubic (CIS) structure. However, the hexagonal (CI4) structure has two distinct B sites, B(I) and B(II) with a 1:3 ratio. Preliminary neutron diffraction studies indicate that the B(I) sites are predominantly occupied by Ni and the B(II) sites are randomly mixed with V, Cr, Mn, Fe, and Ni. It is then proposed that the formula of the hexagonal structure should become A2B(I)JB(IIh in the current multi-element Zr-based alloys. Minor phases close to the structures of Zr7NilO, Zr9NiJJ, and Zr02 are also present in some alloys. The average electron concentration factor (ela) derived from the alloy composition dictates the alloy structures. The alloys with higher electron concentration factor (7.1) favor the diamond cubic structure. On the other hand, the hexagonal structure is associated with the alloys with lower electron concentration factor (6.5). The alloys having electron concentration factors in between are mixtures of the diamond cubic and hexagonal structures.

Original languageEnglish
Title of host publicationStanford R. Ovshinsky
Subtitle of host publicationThe Science and Technology of an American Genius
PublisherWorld Scientific Publishing Co.
Pages266-271
Number of pages6
ISBN (Electronic)9789812818416
ISBN (Print)9812818391, 9789812818393
DOIs
StatePublished - Jan 1 2008

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