Journal of Materials Research and Technology (Sep 2024)

Strain-rate and size dependence of gradient lamellar nickel investigated by in-situ micropillar compression

  • Zi-Meng Wang,
  • Yun-Fei Jia,
  • Jia-Dong Cai,
  • Yuan-Yuan Cui,
  • Xiao Li,
  • Xian-Cheng Zhang,
  • Shan-Tung Tu

Journal volume & issue
Vol. 32
pp. 3269 – 3279

Abstract

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Strain rate plays a nonnegligible role in the plastic deformation behavior of metallic materials with heterogeneous nanostructure, while little research focuses on the topic. In-situ compression tests at various strain rates were conducted on the micropillars located at different depths from the gradient lamellar Ni. These tests intended to reveal the strain-rate dependence of micropillars with different lamellar thicknesses and illustrated the competitive relationship between strain rate and intrinsic grain size on the plastic deformation behavior of metallic materials. In addition, due to the strain rate sensitivity related to not only intrinsic size but also external size, single Ni micropillars with different diameters were also compressed at various strain rates in order to clarify the competitive relationship between intrinsic size and external size on the strain rate sensitivity. It is found that lamellar thickness rather than strain rate has more effect on plastic deformation, and external size exhibits a more obvious impact on the strain rate sensitivity. The plastic deformation behaviors of different micropillars are mainly explained by transitions in the effect of lamellar grain boundaries on the dislocation motion at various strain rates and over different lamellar thicknesses, resulting in the change of dislocation multiplication and annihilation rate.

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