Abstract: The modification technology for improving thermal stability of aluminum hydrate powder with phosphoric acid and its effects on morphology and phase of modified powder were investigated, and the improvement mechanism on thermal stability of aluminum hydrate was discussed. The results show that raising reaction temperature, prolonging reaction time and increasing concentration of phosphoric acid are favorable to improve the thermal stability of aluminum hydrate. The initial loss temperature of crystal water i, n aluminum hydrate rises from 192 ℃ to 211 ℃ at the phosphoric acid concentration of 10%, reaction temperature of 90 ℃ and reaction time of 75 min. The improvement mechanism of phosphoric acid on thermal stability of aluminum hydrate may be attributed to their interreaction which produces heat resistant aluminum salt film on the aluminum hydrate particle. The modification technology doesn't change the trihydrate alumina structure of powder, however, it will make the particles grow up and coarse granule appear.

Key words: aluminum hydrate; phosphoric acid; modification; thermal stability