A kind of high-toughness zirconia-based composite powder and its preparation method
A zirconia-based, composite powder technology, applied in the preparation/processing of zirconia, rare earth metal compounds, magnesium oxide, etc., can solve the problems of poor toughness, large surface area, and poor molding effect
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[0038] A method for preparing coated alumina nano-yttrium stabilized zirconia composite powder by surface-induced coating, the preparation method comprising the following steps:
[0039] (1) Reaction solution preparation method: prepare zirconium oxychloride, yttrium chloride, metal salt of the third period, dispersant raw material solution, its Zr 4+ Concentration 0.1~2.5mol / L, Zr 4+ with Y 3+ The molar concentration ratio is 99:2~90:20, Zr 4+ The ratio of the molar concentration of metal ions to the metal salt of the third period is 99:1~90:10. The concentration of dispersant is 0.5~5g / L. Under the condition of 0.5-6 mol / L ammonia solution or 0.1-3 mol / L hydrochloric acid solution through the atomizer at 1-10000 mL / min to adjust the raw material solution H + Concentration, so that Zr in the solution 4+ Partial hydrolysis to generate crystal nuclei, adjust the solution H + The concentration is 0.1-5mol / L to control the amount of crystal nuclei generated by hydrolysis, th...
Embodiment 1
[0045] (1) Preparation of ZrOCl 2 , YCl 3 , MgCl 2 , mixed solution of hydroxypropyl cellulose, wherein Zr 4+ :Y 3+ :Mg 2+ The molar ratio is 89:6:8, the raw material solution is placed in the reaction kettle, and the H of the final reaction solution is adjusted by adding 2.8mol / L dilute ammonia solution under 60°C water bath and 500r / min stirring. + concentration, so that the solution final C Zr 4+ =1.0mol / L, H + The concentration is 1.2mol / L, and the concentration of hydroxypropyl cellulose is 0.5g / L to obtain the hydrothermal reaction solution;
[0046] (2) Transfer the solution obtained in step (1) to a polytetrafluoroethylene-lined stainless steel reactor, heat to 160°C for hydrothermal hydrolysis, and cool after reacting for 12 hours to obtain a hydrated zirconia suspension;
[0047] (3) Add 10% ammonia water to the hydrated zirconia suspension at 60°C and 500r / min at 10mL / min to make Y 3+ / Mg 2 + Uniformly precipitate on the surface of the hydrated zirconia p...
Embodiment 2
[0050] (1) Preparation of ZrOCl 2 , YCl 3 , MgCl 2 , mixed solution of hydroxypropyl cellulose, wherein Zr 4+ :Y 3+ :Mg 2+ The molar ratio is 89:6:8, the raw material solution is placed in the reaction kettle, and the H of the final reaction solution is adjusted by adding 5.95mol / L dilute ammonia solution in a water bath at 60°C and stirring at 500r / min. + concentration, so that the solution final C Zr 4+ =1.6mol / L, H + The concentration is 1.2mol / L, and the concentration of hydroxypropyl cellulose is 0.5g / L to obtain the hydrothermal reaction solution;
[0051] (2) Transfer the solution obtained in step (1) to a polytetrafluoroethylene-lined stainless steel reactor, heat to 160°C for hydrothermal hydrolysis, and cool after reacting for 12 hours to obtain a hydrated zirconia suspension;
[0052] (3) Put the suspension at 60°C and 500r / min, add 10% ammonia water at 10mL / min to make Y 3+ / Mg 2+ Uniformly precipitate on the surface of hydrated zirconia particles, stop a...
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