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First-principles study of the effect of boron on grain boundary in NiAl
[Display omitted] •The effect of B on NiAl was investigated using the first-principles calculations.•The favorable site of the segregated B in GB was explicitly demonstrated.•The covalent bonding between B and its neighboring Ni account for the GB enhancement.•The B–Ni covalent mainly stem from the...
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Published in: | Computational materials science 2016-08, Vol.121, p.1-5 |
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Main Authors: | , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites Items that cite this one |
Online Access: | Get full text |
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Summary: | [Display omitted]
•The effect of B on NiAl was investigated using the first-principles calculations.•The favorable site of the segregated B in GB was explicitly demonstrated.•The covalent bonding between B and its neighboring Ni account for the GB enhancement.•The B–Ni covalent mainly stem from the interactions between B-p and Ni-d states.
The grain boundary (GB) is critical to the mechanical properties of NiAl. The addition of B in NiAl can lead to the increase of yield strength due to its segregation in GB. To elucidate the B-induced enhancement of GB, we investigate the segregation state and its strengthening mechanism of the additive B in the typical ∑5(310)[001] GB of NiAl at atomic scale using the first-principles method. Our calculations shown that the additive B atom prefers to segregate at the interstitial I1 site of GB, in which case it is surrounded by four first-nearest-neighboring (1NN) and two second-nearest-neighboring (2NN) Ni atoms. It is found the segregated B prefers to bond with its neighboring Ni instead of Al atoms. Our calculations further shown not only the intergranular cohesion is improved by the covalent bonding between the segregated B and its four 1NN Ni atoms, but also the intra-planar cohesion of GB is enhanced by the covalent bonding between the segregated B and its two 2NN Ni atoms. The covalent bonding between B and Ni atoms mainly stem from the contribution of B-p and Ni-d states, partly from the weak interactions of B-s and Ni-s states. Our first-principles tensile test shown that the yield stress and ductility of NiAl are indeed improved due to the segregation of B in GB. |
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ISSN: | 0927-0256 1879-0801 |
DOI: | 10.1016/j.commatsci.2016.04.024 |