Atomistic explanation of brittle failure of thermoelectric skutterudite CoSb_3
Guodong Li, Qi An, William A. Goddard III, Riley Hanus, Pengcheng Zhai, Qingjie Zhang, G. Jeffrey Snyder
2016Acta Materialia, 103, 775-780
Abstract
CoSb_3 based skutterudite thermoelectric material has superior thermoelectric properties, but the low fracture toughness prevents its widespread commercial application. To determine the origin of its brittle failure, we examined the response of shear deformation in CoSb3 along the most plausible slip system (010)/<100>, using large-scale molecular dynamics simulations. We find that the brittle failure of CoSb_3 arises from the formation of shear bands due to the destruction of Sb4-rings and the slippage of Co-octahedraes. This leads to the breakage of Co-octahedraes and cavitation, resulting in the crack opening and mechanical failure.
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Cite this publication
Li, G., An, Q., III, W. A. G., Hanus, R., Zhai, P., Zhang, Q., & Snyder, G. J. (2016). Atomistic explanation of brittle failure of thermoelectric skutterudite CoSb_3. *Acta Materialia*, *103*, 775-780.