Segregation energy of the hydrogen at Ni Σ3 grain boundaries: some implications of the atomic volume and the interstitial self-stress.

Autor:	Hallil, Abdelmalek, Metsue, Arnaud, Oudriss, Abdelali, Bouhattate, Jamâa, Feaugas, Xavier
Předmět:	NICKEL alloys CRYSTAL grain boundaries ATOMIC volume EXPANSIVE concrete HYDROGEN content of metals
Zdroj:	Journal of Materials Science; Apr2018, Vol. 53 Issue 7, p5356-5363, 8p, 4 Graphs
Abstrakt:	Atomistic simulations performed for the hydrogen segregation in different Ni $$ \Sigma 3 $$ 〈110〉 tilt grain boundaries (GBs), including symmetrical and asymmetrical configurations, highlight a decreasing functional relationship between the segregation energy and the atomic volume of the GB interstitial site. The analysis of the local deformations around the hydrogen atoms showed that this relationship is not depending on the geometric form of the GB interstitial sites. For small contents of the volume change, a linear correlation was found between the segregation energy of the hydrogen solutes and the volume occupancy of the GB trapping sites. However, when interstitial volumes reach a certain critical value this proportionality presents some limits, especially for GB trapping sites that undergo considerable volume distortions. A general thermo-mechanical framework based on the atomic self-stress calculations is stated to understand locally the connection between the volume occupancy and the elastic relaxed energy from the insertion of hydrogen interstitials in $$ \Sigma 3 $$ grain boundaries. [ABSTRACT FROM AUTHOR]
Databáze:	Complementary Index
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