Effect of stress state on deformation and fracture of nanocrystalline copper: molecular dynamics simulation

نویسندگان

  • Liang Zhang
  • Cheng Lu
  • Kiet Tieu
  • Linqing Pei
  • Xing Zhao
چکیده

Deformation in a microcomponent is often constrained by surrounding joined material making the component under mixed loading and multiple stress states. In this study, molecular dynamics (MD) simulation are conducted to probe the effect of stress states on the deformation and fracture of nanocrystalline Cu. Tensile strain is applied on a Cu single crystal, bicrystal and polycrystal respectively, under two different tension boundary conditions. Simulations are first conducted on the bicrystal and polycrystal models without lattice imperfection. The results reveal that, compared with the performance of simulation models under free boundary condition, the transverse stress caused by the constrained boundary condition leads to a much higher tensile stress and can severely limit the plastic deformation, which in return promotes cleavage fracture in the model. Simulations are then performed on Cu single crystal and polycrystal with an initial crack. Under constrained boundary condition, the crack tip propagates rapidly in the single crystal in a cleavage manner while the crack becomes blunting and extends along the grain boundaries in the polycrystal. Under free boundary condition, massive dislocation activities dominate the deformation mechanisms and the crack plays a little role in both single crystals and polycrystals. Disciplines Engineering | Science and Technology Studies Publication Details Zhang, L., Lu, C., Kiet, T., Pei, L. & Zhao, X. (2014). Effect of stress state on deformation and fracture of nanocrystalline copper: molecular dynamics simulation. Chinese Physics B, 23 (9), 098102-1-098102-8. This journal article is available at Research Online: http://ro.uow.edu.au/eispapers/3092

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تاریخ انتشار 2017