LAUSR

Abstract Alumina powders were prepared via a novel nonaqueous precipitation method with aluminum powders as aluminum source and anhydrous acetic acid as precipitant. The thermal decomposition and phase transformation of crystal precipitate and the influence of precipitate aging were investigated via TG-DTA-MS, XRD, TEM, BET, FE-SEM and performance tests of sintered bodies. The results show crystal precipitate C 4 H 7 AlO 7 transforms to amorphous Al 2 O 3 at 300 °C, and then to γ -Al 2 O 3 at 950 °C, and finally to α -Al 2 O 3 at 1050 °C. The particle size of α -Al 2 O 3 prepared at 1100 °C is 50–100 nm with BET surface area of 25.98 m 2 ∙g −1 . FE-SEM morphology of sintered sample at 1400 °C shows excellent sinterability of the α -Al 2 O 3 powders. Aging eliminates aggregation, and leads to highly homogenized and densified particles. It also affects the densification behaviour during sintering and further influences density, thermal expansion coefficient, flexural strength, volume resistivity and electric breakdown strength of sintered bodies