High-strain-rate void growth in high entropy alloys: Suppressed dislocation emission = suppressed void growth

Artigo Revisado por pares

High-strain-rate void growth in high entropy alloys: Suppressed dislocation emission = suppressed void growth

2020; Elsevier BV; Volume: 185; Linguagem: Inglês

10.1016/j.scriptamat.2020.03.056

ISSN

1872-8456

Autores

Yi Cui, Yuhki TOKU, Yasuhiro Kimura, Yang Ju,

Tópico(s)

Additive Manufacturing Materials and Processes

Resumo

Void growth, as a critical stage in ductile fracture, could play some important role in the ductility of high entropy alloys (HEAs). Under a high-strain-rate tension (strain rate: 0.1~0.4/ns), our atomistic simulations reveal a severely suppressed growth of void (initial diameter: 4.0~9.1 nm) in HEAs at a low temperature, compared with that in Ni metal or Ni-based binary alloys. The emission of unclosed glide loops is found critical to void growth. Void growth is suppressed, once dislocation emission is suppressed due to the solute drag effect. Regarding the alloying elements, we find the void suppression relevance as Fe>Co and Cr>Fe>Mn.

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High-strain-rate void growth in high entropy alloys: Suppressed dislocation emission = suppressed void growth