Wilmer Velilla Díaz scite author profile

In this publication, molecular dynamics simulations are used to investigate the fracture behavior of single-crystal aluminum. The stress intensity factor is estimated by means of four different methods, the accuracy is assessed for each approach and the fracture toughness is estimated. The proposed methodology is also applied to estimate the fracture toughness for graphene and diamond using published data from other scientific articles. The obtained fracture toughness for the single-crystal aluminum is compared with other nanomaterials that have similar microstructures. Dislocation emission during the fracture simulation of the cracked nano-crystal of aluminum is analyzed to study the fracture behavior. Brittle fracture behavior is the predominant failure mode for the nanomaterials studied in this research.

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Crack Length Effect on the Fracture Behavior of Single-Crystals and Bi-Crystals of Aluminum

Díaz

Zambrano

2021

Nanomaterials

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Molecular dynamics simulations of cracked nanocrystals of aluminum were performed in order to investigate the crack length and grain boundary effects. Atomistic models of single-crystals and bi-crystals were built considering 11 different crack lengths. Novel approaches based on fracture mechanics concepts were proposed to predict the crack length effect on single-crystals and bi-crystals. The results showed that the effect of the grain boundary on the fracture resistance was beneficial increasing the fracture toughness almost four times for bi-crystals.

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Wilmer Velilla Díaz

The role of the grain boundary in the fracture toughness of aluminum bicrystal

Fracture Toughness Estimation of Single-Crystal Aluminum at Nanoscale

Crack Length Effect on the Fracture Behavior of Single-Crystals and Bi-Crystals of Aluminum

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