4.5 Article

A theoretical insight into the fracture behavior of the edge-cracked polycrystalline BC3 nanosheets

Journal

COMPUTATIONAL MATERIALS SCIENCE
Volume 192, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.commatsci.2021.110345

Keywords

Polycrystalline; BC3 nanosheets; Mechanical properties; Fracture toughness; Molecular dynamics simulation

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The study found that the mechanical properties of monocrystalline BC3 nanosheets decreased with increasing temperature or crack length, with higher properties achieved in the armchair direction. Stress intensity followed a similar trend with temperature but increased with crack length. For polycrystalline BC3 nanosheets, their properties were lower than the corresponding monocrystalline BC3 nanosheets at 300K.
This work aims to investigate the mechanical and fracture behavior of mono- and polycrystalline BC3 nanosheets (MC- and PCBC3NS) in terms of the number of grain boundaries, status of edge-cracks, and temperature. By using molecular dynamics simulation, appropriate potential function and boundary conditions, MC- and PCBC3NS were modeled and tested varying the temperature and crack length. Results demonstrated that the mechanical properties of MCBC(3)NSs were decreased as the temperature or the crack length increased, where higher properties were achieved in the armchair direction. Stress intensity variation followed a similar trend upon temperature, but increased as the crack length increased. The minimal elastic modulus, failure stress, and failure strain of the MCBC3NS, for crack length L/2, zigzag direction, and at 1000 K were respectively 53%, 84%, and 75% lower compated to values at 100 K. The same trend was detected for PCBC(3)NSs upon crack length increase at 300 K, while the properties of PCBC(3)NSs were lower than the corresponding MCBC3NS. Moreover, for the PCBC(3)NSs with smaller cracks, both the crack length and grain boundary played key roles in the fracture process, while for large cracked nanosheets the effect of grain boundary was negligible. This work unveiled the fingerprint of the fracture behavior of 2D nanosheets which enlightens future ahead of next generations of nano-devices.

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