Preparation of Y2Si2O7/ZrO2 Composites and Their Composition – Mechanical Properties – Tribology Relationships

In this work, novel Y₂Si₂O₇/ZrO₂ composites were developed for structural and coating applications by taking advantage of their unique properties, such as good damage tolerance, tunable mechanical properties, and superior wear resistance. The γ‐Y₂Si₂O₇/ZrO₂ composites showed improved mechanical properties compared to the γ‐Y₂Si₂O₇ matrix material, that is, the Young's modulus was enhanced from 155 to 188 GPa (121%) and the flexural strength from 135 to 254 MPa (181%); when the amount of ZrO₂ was increased from 0 to 50 vol%, the γ‐Y₂Si₂O₇/ZrO₂ composites also presented relatively high facture toughness (>1.7 MPa·m^1/2), but this exhibited an inverse relationship with the ZrO₂ content. The composition–mechanical property–tribology relationships of the Y₂Si₂O₇/ZrO₂ composites were elucidated. The wear resistance of the composites is not only influenced by the applied load, hardness, strength, toughness, and rigidity but also effectively depends on micromechanical stability properties of the microstructures. The easy growth of subcritical microcracks in Y₂Si₂O₇ grains and at grain boundaries significantly contributes to the macroscopic fracture toughness, but promotes the pull‐out of individual grains, thus resulting in a lack of correlation between the wear rate and the macroscopic fracture toughness of the composites.