Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
1664011 | Thin Solid Films | 2016 | 8 Pages |
•First-principles calculations give the structural and elastic properties of TiN/MN superlattices.•TiN/MN superlattices exhibit in-plane ductility.•In-plane Cauchy pressure of TiN/MN superlattices is significantly large than that in solid-solutions.•Superlattice toughening derives from the coupling between macro- and micro-distortions.
In this study, a supertoughness effect is predicted through systematic first-principle calculations on structures and mechanical properties of transition metal nitride superlattices TiN/MN (M = V, Nb, Ta, Mo, and W). The TiN/WN superlattice has an in-plane Cauchy pressure as high as 296 GPa, which is 348% larger than that in Ti0.5W0.5N solid solutions. Supertoughness is also significantly affected by the coupling between macro- and micro-distortions in addition to previously reported valence electron concentration and atomic ordering effects. Present results indicate a route to develop superhard and supertough superlattice coatings.