Highly transparent cubic gamma-Al2O3 ceramic prepared by high-pressure sintering of home-made nanopowders

Highly transparent gamma-aluminum oxide (gamma-Al2O3) ceramics were fabricated for the first time, by combining homogeneous precipitation and high-pressure sintering in the absence of exogenous dopants. The resulting cubic gamma-Al2O3 transparent ceramic material exhibits a promising replacement for single-crystal sapphire. The optimum optical properties are achieved in response to sintering at 5 GPa and a temperature of 300 degrees C and include maximum transmittance of 86% in the range of 0.6-1.2 mu m which are properties that are comparable to those of single-crystal sapphire (similar to 86%). Vickers hardness (16 GPa) and compressive strength (350 MPa) in response to high-pressure sintering are also similar to those of a conventional sapphire single crystal. Meanwhile, the dielectric constant (9.46) is comparable to that of sapphire in the C-axis direction. These findings will facilitate further development of transparent Al2O3 ceramics for use in a wider range of optical applications.

Automated summary

Highly transparent gamma-aluminum oxide ceramics, with comparable optical properties to single-crystal sapphire, were successfully fabricated using homogeneous precipitation and high-pressure sintering techniques. The resulting ceramic material exhibited maximum transmittance of 86% in the range of 0.6-1.2 μm, Vickers hardness of 16 GPa, compressive strength of 350 MPa, and a dielectric constant of 9.46 in the C-axis direction. These findings contribute to the development of transparent Al2O3 ceramics for various optical applications.