Preparation Of High-Temperature Active Zirconium Boride Powders Via Precursor Route And Microwave Sintering

ZrB2 powders were synthesised by microwave heating using the sol-gel method for precursor with eight C6H14O6 (ZrOCl2 center dot 8H(2)O), boric acid (H3BO3), citric acid (I), and mannitol (as raw materials). The results show that the temperature at which the ZrB2 powder is completely synthesised by microwave heating is 1400 degrees C, which is 300 degrees C lower than the traditional way. XRD and SEM were used to characterise the phase composition and morphology of the powders. In addition, the effects of raw material ratios and synthesis temperature on the synthesis of powder were investigated. The effect of temperature on the purity of the synthesised zirconium boride was considerable. The nearly spherical ZrB2 ultra-fine powders of high purity were synthesised successfully at 1400 degrees C by microwave, with the ratios of C:Zr is 7.44:1, and B:Zr is 2.77:1.