Negative ion easy-to-clean functional ceramic additive, its preparation method and the prepared ceramic and ceramic preparation method
A technology of functional ceramics and additives, applied in the field of ceramics, can solve problems such as harm to health and groundwater pollution, and achieve the effects of easy cleaning, enhanced resistance, strong adsorption and decomposition
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Embodiment 1
[0044] The negative ion and easy-to-clean functional ceramic additive of the present invention is made of the following raw materials in mass percentage:
[0045] Sogo stone 16% of 5-20 microns, 19% of tourmaline of 5-15 microns, 12% of seastone of 5-20 microns, 8% of nano-titanium dioxide, 6% of nano-zinc oxide, 6% of lead-free frit, nitric acid 8% cerium, 9% ultrafine alumina, 11% ultrafine quartz powder and 5% sodium carbonate.
[0046] The preparation method is first to mix and ball-mill lead-free frit, rare earth materials, ultrafine alumina, ultrafine quartz powder and sodium carbonate for 9 hours, and then add 5-20 micron sogo stone, 5-15 micron tourmaline, 5- The 20-micron haveronite, nano-titanium dioxide and nano-zinc oxide are ball-milled for 9 hours to obtain negative ion and easy-to-clean functional ceramic additives with a particle size of 1-10 microns.
Embodiment 2
[0048] The negative ion and easy-to-clean functional ceramic additive of the present invention is made of the following raw materials in mass percentage:
[0049] Sogo stone 10% of 5-20 microns, 25% of tourmaline of 5-15 microns, 10% of seastone of 5-20 microns, 8% of nano-titanium dioxide, 6% of nano-zinc oxide, 5% of lead-free frit, oxide Neodymium 10%, superfine alumina 8%, superfine quartz powder 12% and sodium carbonate 6%.
[0050] The preparation method is the same as in Example 1.
Embodiment 3
[0052] The negative ion and easy-to-clean functional ceramic additive of the present invention is made of the following raw materials in mass percentage:
[0053] Sogo stone 12% of 5-20 microns, 23% of tourmaline of 5-15 microns, 5% of seastone of 5-20 microns, 10% of nano-titanium dioxide, 7% of nano-zinc oxide, 5% of lead-free frit, nitric acid 4% cerium, 5% neodymium oxide, 9% ultra-fine alumina, 13% ultra-fine quartz powder and 7% sodium carbonate.
[0054] The preparation method is the same as in Example 1.
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