N. A. Alang scite author profile

Idealized random grains separated by pseudo grain boundaries were generated by using Voronoi tessellation to simulate the polycrystalline microstructure. Combined with finite element analyses, this approach made it possible to addressing crack initiation and progressive failure due to crack growth in notched bar geometries of P92 steel at high temperature. The calculations provided good predictions for creep rupture lives of notched specimen with different notch radii and external stress. Simultaneously, irregular crack growth shape, intergranular crack mode, and wedge cracks at triple grain interaction were captured in the model. The crack initiation positions were found to be influenced by notch radius and applied stress causing high stress triaxiality at the subgrain level. Furthermore, the preferential crack growth directions were changed as the notch varied from sharp to blunt.

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An analytical and numerical approach to multiscale ductility constraint based model to predict uniaxial/multiaxial creep rupture and cracking rates

Alang

Nikbin

2018

International Journal of Mechanical Sciences

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Anti-corrosive coatings of magnesium: A review

Johari

Alias

Zanurin

et al. 2022

Materials Today: Proceedings

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Recent progress of self-healing coatings for magnesium alloys protection

et al. 2022

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N. A. Alang

Investigating creep rupture and damage behaviour in notched P92 steel specimen using a microscale modelling approach

An analytical and numerical approach to multiscale ductility constraint based model to predict uniaxial/multiaxial creep rupture and cracking rates

Anti-corrosive coatings of magnesium: A review

Recent progress of self-healing coatings for magnesium alloys protection

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