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The process of carbothermal reduction of Al2O3 in a nitrogen flow at  temperatures of 1450 and 1600ºC has been studied. It was established that the  powder synthesized at 1450ºC is a mixture of Al2O3 and AlN particles and that  the powders synthesized at 1600ºC are mixtures of AlN, AlON, and Al2O3.  Amorphous and crystalline AlON films form on the surface of Al2O3 and AlN  particles. Both synthesized powders contain unreacted residual carbon. In the  stage of high-pressure sintering of specimens at a temperature of 1750ºC  under a pressure of 7 GPa for 110 s, AlON decomposes into AlN and Al2O3.  Residual graphite transforms into a crystalline graphite phase, which  decreases the strength and increases the fracture toughness. The highest  hardness of 19.5 GPa was achieved in the ceramics obtained from the powder  synthesized at 1600ºC for 4 h, and the largest fracture toughness of ~7.2  MPa•m1/2 was achieved in the ceramics obtained from the powder synthesized at  1450ºC for 4h

Synthesis of composite AlN-AlON-Al2O3 powders and ceramics prepared by high-pressure sintering