4.7 Article

Shear localization and recrystallization in an ultrahigh strain rate deformed copper shaped charge liner

Journal

MATERIALS CHARACTERIZATION
Volume 177, Issue -, Pages -

Publisher

ELSEVIER SCIENCE INC
DOI: 10.1016/j.matchar.2021.111184

Keywords

Shear bands; Recrystallization; Ultrahigh strain rate; Shaped charge liner

Funding

  1. National Natural Science Foundation of China [50761012]
  2. Fundamental Research Funds for the Central Universities [FRF-TP-19-012B1]

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Under ultra-high strain rates, a slug recovered from a fine-grained copper shaped charge liner after explosive loading exhibited multiple shear bands in a spiral pattern, with self-organization behavior and the formation of large grains, annealing twins, and few dislocations, as well as copper and cube textures. The substantial plastic work transformed into heat during detonation, leading to rapid heating of the liner and thermal softening counteracting work hardening to induce shear localization. Despite fast cooling rates post-deformation, the temperature and time met the requirements for recrystallization and grain growth through grain boundary migration.
To assess the effect of explosive loading on deformation behavior and microstructure evolution, a slug recovered from a fine-grained copper shaped charge liner after detonation deformation at an ultrahigh strain rate over 10(4) s(-1) was investigated. In the slug, multiple shear bands appeared in a single direction spiral pattern and exhibited self-organization behavior, which constitute the main deformation characteristics. Compared with the initial fine grains, the larger grains formed in the deformed copper liner. The annealing twins and few dislocations were observed in these grains. Further, a copper texture and cube texture appeared in different parts of the slug. The results demonstrate the occurrence of recovery and recrystallization. Throughout the detonation process, a substantial amount of plastic work was transformed into heat, the copper liner underwent rapid heating. The thermal softening due to elevated temperature counteracted work hardening and induced shear localization. The existence of shear bands means that the collapsing mechanism of the liner changed from global deformation to shear localization. Although the post-deformation cooling rate of the slug was very fast, the temperature and time met the requirements of recrystallization and grain growth by grain boundary migration. Through this study, the influence of the thermal effect on ultrahigh strain rate deformation is better understood.

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