Publications
In Situ Transmission Electron Microscopy for Ultrahigh Temperature Mechanical Testing of ZrO2
Grosso, Robson L.; Muccillo, Eliana N.S.; Muche, Dereck N.F.; Jawaharram, Gowtham S.; Barr, Christopher M.; Monterrosa, Anthony M.; Castro, Ricardo H.R.; Hattar, Khalid M.; Dillon, Shen J.
This work demonstrates a novel approach to ultrahigherature mechanical testing using a combination of in situ nanomechanical testing and localized laser heating. The methodology is applied to characterizing and testing initially nanograined 10 mol % Sc2O3-stabilized ZrO2 up to its melting temperature. The results suggest that the lowerature strength of nanograined, d < 50 nm, oxides is not influenced by creep. Tensile fracture of ZrO2 bicrystals produce a weakerature dependence suggesting that grain boundary energy dominates brittle fracture of grain boundaries even at high homologous temperatures; for example, T = 2050 °C or T ≈ 77% Tmelt. The maximum temperature for mechanical testing in this work is primarily limited by the instability of the sample, due to evaporation or melting, enabling a host of new opportunities for testing materials in the ultrahigherature regime.