Anna-Maria Alvarez Holston scite author profile

In this work we report the results of an ab initio study of the transgranular fracture toughness and cleavage of brittle zirconium hydrides. We use the Griffith–Irwin relation to assess the fracture toughness using calculated surface energy and estimated isotropic Voigt–Reuss–Hill averages of the elastic constants. The calculated fracture toughness values are found to concur well with experimental data, which implies that fracture is dominated by cleavage failure. To investigate the cleavage energetics, we model the decohesion process. To describe the interplanar interaction we adopt Rose’s universal binding energy relation, which is found to reproduce the behaviour accurately. The modelling shows that the work of fracture and ductility decreases with increasing hydrogen content.

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An Out-of-Pile Method to Investigate Iodine-induced SCC of Irradiated Cladding

Anghel

Holston

Lysell

et al. 2010

RGN

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Anna-Maria Alvarez Holston

Ab initio thermodynamics of zirconium hydrides and deuterides

High temperature nanoindentation hardness and Young's modulus measurement in a neutron-irradiated fuel cladding material

On the role of hydrogen filled vacancies on the embrittlement of zirconium: An ab initio investigation

Ab initio-based fracture toughness estimates and transgranular traction-separation modelling of zirconium hydrides

An Out-of-Pile Method to Investigate Iodine-induced SCC of Irradiated Cladding

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