Extensive deformation behavior of an all-oxide Al₂O₃-TiO₂ nanostructured multilayer ceramic at room temperature

Abstract: An all-oxide Al2O3-TiO2 ceramic multilayer composed of 10–100 nm thick alternating layers was fabricated using the reactive magnetron sputtering process. Microindentation tests were carried out on the multilayer ceramic followed by microstructural observations of the cross-sections of the indented sites to characterize the indentation response of the system. During the observations, it was noted that an extensive room temperature “deformation” occurred in the multilayer ceramic material. The material shows a t… Show more

“…Multilayer ceramics composed of fully crystalline alternate Al 2 O 3 and TiO 2 layers with an individual layer thickness of ∼65-70 nm were fabricated by reactive pulse magnetron sputtering [122]. The multilayer ceramics was composed of columnar grains and elongated voids with their longitudinal axes parallel to the deposition direction.…”

The toughening mechanism of nacre and structural materials inspired by nacre

“…Multilayer ceramics composed of fully crystalline alternate Al 2 O 3 and TiO 2 layers with an individual layer thickness of ∼65-70 nm were fabricated by reactive pulse magnetron sputtering [122]. The multilayer ceramics was composed of columnar grains and elongated voids with their longitudinal axes parallel to the deposition direction.…”

The toughening mechanism of nacre and structural materials inspired by nacre

Ultrahigh-pressure consolidation and deformation of tantalum carbide at ambient and high temperatures