A kind of anti-ultraviolet coating and preparation method thereof
An anti-ultraviolet and coating technology, applied in the field of materials, can solve the problems of high production cost, low anti-ultraviolet ability, and inability to meet anti-ultraviolet requirements, and achieve the effect of reduced raw material cost, high ultraviolet reflection ability, and suitable for industrial production
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Embodiment 1
[0028] Anti-ultraviolet coating of the present invention, its preparation method is as follows:
[0029] 1. Preparation of doped ferrite powder
[0030] Raw material weight percentage is CoO1%, MgO2%, Al 2 o 3 0.6%, SiO 2 0.2%, CaO0.1%, La 2 o 3 0.8%, the rest is Fe 2 o 3 , the raw materials are mixed and crushed in a sand mill, dried at a temperature of 130°C, passed through a 180-mesh sieve, and then pre-fired at a temperature of 960°C for 125 minutes, and the doped ferrite obtained after pre-burning Grinding into doped ferrite powder with a particle size of 130-150 microns;
[0031] 2. Waste cement powder preparation
[0032] Grinding waste cement into waste cement powder with a particle size of 130-150 microns;
[0033] 3. Preparation of ferrite composite powder
[0034] According to the weight ratio of doped ferrite and waste cement is 1:0.1, mix the doped ferrite powder obtained in step 1 and the waste cement powder obtained in step 2 evenly, and then sinter at...
Embodiment 2
[0038] Anti-ultraviolet coating of the present invention, its preparation method is as follows:
[0039] 1. Preparation of doped ferrite powder
[0040] Raw material weight percentage is ZnO 2 22%, CoO3%, MgO3%, Al 2 o 3 0.8%, SiO 2 0.1%, CaO0.3%, La 2 o 3 0.6%, the rest is Fe 2 o 3 , the raw materials are mixed and crushed in a sand mill, dried at a temperature of 126°C, passed through a 220-mesh sieve, and then pre-fired at a temperature of 990°C for 110 minutes, and the doped ferrite obtained after pre-burning Grinding into doped ferrite powder with a particle size of 130-150 microns;
[0041] 2. Waste cement powder preparation
[0042] Grinding waste cement into waste cement powder with a particle size of 130-150 microns;
[0043] 3. Preparation of ferrite composite powder
[0044] According to the weight ratio of doped ferrite and waste cement is 1:0.3, mix the doped ferrite powder obtained in step 1 and the waste cement powder obtained in step 2 evenly, and th...
Embodiment 3
[0048] Anti-ultraviolet coating of the present invention, its preparation method is as follows:
[0049] 1. Preparation of doped ferrite powder
[0050] Raw material weight percentage is ZnO 213%, CoO2%, MgO2.5%, Al 2 o 3 0.7%, SiO 2 0.1%, CaO0.2%, La 2 o 3 0.7%, the rest is Fe 2 o 3 , the raw materials are mixed and crushed in a sand mill, dried at a temperature of 120°C, passed through a 200-mesh sieve, and then pre-fired at a temperature of 970°C for 120 minutes, and the doped ferrite obtained after pre-burning Grinding into doped ferrite powder with a particle size of 130-150 microns;
[0051] 2. Waste cement powder preparation
[0052] Grinding waste cement into waste cement powder with a particle size of 130-150 microns;
[0053] 3. Preparation of ferrite composite powder
[0054] According to the weight ratio of doped ferrite and waste cement is 1:0.2, mix the doped ferrite powder obtained in step 1 and the waste cement powder obtained in step 2 evenly, and t...
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