Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
1616726 | Journal of Alloys and Compounds | 2011 | 4 Pages |
It is reported that H atoms prefer to stay at interstitial (defect) sites with larger space in most metals. However, H atom prefers to occupy tetrahedral interstitial sites (T-site) that provide smaller space than octahedral sites (O-site) in Al. This paper studied the H–Al interactions from first principles calculations. Through analysis of the H-induced electronic states and the local atomic relaxations, we show that H–Al bonding interaction is stronger for T-site H, which is in favor of the solution energy. On the other hand, larger local atomic distortion is observed around the T-site H, which increases the total energy.
► The physical nature of the site preference for H solution in BCC Al is revealed. ► The site preference is result of competition between Al–H bonding interaction and local lattice distortion. ► The Al–H bonding interaction lowers the solution energy while the local lattice distortion increases the solution energy.