Study on robust additive of CaCO <sub>3</sub> for fast fabrication of highly transparent AlON ceramics by pressureless sintering
Liya Ma, Xiannian Sun, Haoran Guo, Yingchun Shan, Xiaoguang Han, Jiujun Xu, Jiangtao Li
Abstract
Abstract Fabrication of transparent AlON ceramics is extra sensitive to both particle size of starting powder and sintering additive due to shuttling transformation between AlON and Al 2 O 3 + AlN during heating. One possible solution is to select robust additive to suppress the shuttling transformation. In this work, three AlON powders with different median particle sizes of 0.6, 0.9, and 1.1 μm were prepared. After studying the effect of CaCO 3 on densification process, AlON ceramics with the maximum transmittance of ≥81.1% were successfully fast prepared by pressureless sintering (PS) at 1880°C for only 2.5 h by using three AlON powders doped with different CaCO 3 amount. Specifically, AlON ceramics prepared from 1.1 μm with 0.5–0.8 wt.% CaCO 3 doping consistently showed the maximum transmittance of ≥85.3%, which indicates that CaCO 3 can serve as a robust additive to enable fast fabrication of highly transparent AlON ceramics even by PS.