Crystal structure, electron-to-atom ratio and hydrogen storage capacity of zirconium based intermetallic Laves phases
Abstract
Laves phases of the type AB2, where A is zirconium, have potential for use as hydrogen storage materials. These Laves phases have one of two different crystal structures, namely the C15 (cubic MgCu2-type) or the C14 (hexagonal MgZn2-type) Strukterbericht types. Data are presented on the lattice parameters for the two phases, and relationships are developed between the lattice parameters of the two phases both for the binary and the pseudobinary Laves phases. Electron-to-atom ratios are calculated for both the binary and pseudobinary Laves phases, and these are related to hydrogen storage capacity (hydrogen-to-metal ratio). The hydrogen-to-metal ratio is shown to decrease with increasing electron-to-atom ratio.
- Publication:
-
Materials Letters
- Pub Date:
- October 1983
- DOI:
- 10.1016/0167-577X(83)90060-5
- Bibcode:
- 1983MatL....2..160I
- Keywords:
-
- Atomic Structure;
- Crystal Structure;
- Electron Density (Concentration);
- Intermetallics;
- Zirconium Alloys;
- Zirconium Hydrides;
- Cubic Lattices;
- Energy Storage;
- Hexagonal Cells;
- Solid-State Physics