First-principles study on the dissolution and diffusion behavior of hydrogen in carbide precipitates

To understand the hydrogen (H) behavior in the carbide precipitates, the dissolution and diffusion properties of interstitial H in the transition metal carbide (TMC; TM = Hf, Nb, Ta, Ti, V, and Zr) were studied by first-principles calculations. In these carbides, it can be seen that H tends to occupy the trigonal site (tri2-site) surrounded by three transition metal atoms and one carbon atom rather than the face center (fc-site) and the body center (bcsite) which with the larger space. We found that the bonding interaction between H atom and the nearest-neighbor (1NN) carbon atom is the dominant influence on the stability of H dissolution. Besides, we obtained the temperature-dependent solubility and diffusion coefficients of H in TMC and pure vanadium through Sievert's law and transition state theory. Compared with pure vanadium, H shows the worse solubility in TMC, and it is more difficult for hydrogen to migrate in TMC, but segregate toward the interface. Furthermore, it is interesting to note that, the diffusion barrier and the H solution energy show a linear relationship for transition metal carbides in the same period. These results can help us deepen the understanding of H behavior in vanadium alloys strengthened by carbide precipitates, and furtherly providing the theoretical guidance for the design of alloys with excellent performance. (C) 2021 Hydrogen Energy Publications LLC.

Automated summary

The dissolution and diffusion properties of hydrogen in transition metal carbides were studied using first-principles calculations. It was found that hydrogen tends to occupy the trigonal site in these carbides, with the bonding interaction between hydrogen and the nearest-neighbor carbon atom playing a key role in stability. Temperature-dependent solubility and diffusion coefficients were determined, with hydrogen showing poorer solubility and difficulty in migration in TMC compared to pure vanadium. Additionally, a linear relationship was observed between diffusion barrier and hydrogen solution energy in transition metal carbides.