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Deciphering the mechanical strengthening mechanism: Soft metal doping in ceramic matrices-A case study of TiN-Ag films

Jing Luan, Fanlin Kong, Junhua Xu, Filipe Fernandes, Manuel Evaristo, Songtao Dong, A. Cavaleiro, Hongbo Ju

2024Materials & Design12 citationsDOIOpen Access PDF

Abstract

Soft metals have been widely added into ceramic-based films for fully meeting the demanding requirements of green tribological applications. However, the resulting considerable increase of the mechanical strength by adding a soft metal below 5 at.%, which reversed the rule-of-mixture, was still not fully revealed. In this paper, a case study of TiN-Ag films was carried out to investigate the strengthening mechanism induced by adding soft metal in TiN-Ag composite/multilayered films deposited by magnetron sputtering. The results showed that dual-phases of fcc-TiN and fcc-Ag co-existed in the composite films with the Ag particles embedded in the matrix. In some areas of the Ag particles, with a size below 4 nm, epitaxial growth with the TiN template was detected, which obliged the lattice to be distorted and shrunken. Consequently, both hardness and elastic modulus were enhanced from 21 and 236 GPa, for the reference TiN film, to 26 and 323 GPa for the TiN-Ag composite film with 2.4 at.% Ag. The possibility of having the epitaxial growth of Ag within TiN were also confirmed by designing a TiN/Ag multilayered film with an Ag layer thickness of ∼3 nm.

Topics & Concepts

Materials scienceTinCeramicDopingMetallurgyMechanism (biology)MetalComposite materialOptoelectronicsEpistemologyPhilosophyMetal and Thin Film MechanicsAdvanced ceramic materials synthesisAdvanced materials and composites
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