4.6 Article

Effect of hydrogen-vacancy cluster on the tensile strength of alpha-titanium twin boundaries: A first-principles investigation

Journal

MATERIALS TODAY COMMUNICATIONS
Volume 36, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.mtcomm.2023.106390

Keywords

Alpha-titanium; Hydrogen; Vacancy; Twin boundary; Tensile strength

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This study used first-principles calculations to investigate the formation of hydrogen-vacancy clusters at twin boundaries in alpha-titanium and their effect on the strength of the boundaries. It was found that the presence of vacancies weakens the twin boundaries by reducing Ti-Ti bonds, but the exact effect depends on the type of twin boundary and the number of hydrogen atoms trapped. These findings provide valuable insights into the role of hydrogen in the embrittlement of alpha-titanium.
This study investigated the formation of hydrogen-vacancy cluster at twin boundaries (TBs) in alpha-titanium and their impact on TB strength. Using first-principles calculations, it is found that a single vacancy (VA) on the {10-12} TB plane can trap up to five hydrogen atoms, while the single VA on the {10-11} TB plane can accommodate up to eight hydrogen atoms. The presence of VA weakens TBs by reducing the number of Ti-Ti bonds near the TBs. However, in the {10-12} TB with VAH5, the enhancement effect of Ti-H-Ti bonds dominates over the weakening effect of electron transfer, resulting in a slight increase in tensile strength compared to {10-12} TB with VA. On the other hand, in the {10-11} TB with VAH8, the weakening effect of electron transfer dominates, leading to a further reduction in tensile strength relative to {10-11} TB with VA. Therefore, the effect of hydrogen-vacancy cluster on the strength of twin boundaries is sensitive to the type of twin boundary. These findings provide valuable insights into the role of hydrogen in the embrittlement of alpha-titanium.

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