Nanometer transparent scratch-resistant glass and preparation method thereof
A transparent and scratch-resistant technology, used in glass manufacturing equipment, glass molding, manufacturing tools, etc., can solve the problems of reducing visible light transmittance, reducing sunlight transmittance, increasing heating energy consumption, etc., and achieving good processability. , easy to industrialize production, keep the effect of color unchanged
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Embodiment 1
[0033] (1) Weigh 60kg of silica, 20kg of zirconia, 3kg of glass beads, 1kg of sodium fluorozirconate, 1kg of sodium fluorosilicate, 1kg of barium oxide with a particle size of 30nm, and 1kg of methyltriacetoxysilane , 1 kg of sodium hydroxide, 0.5 kg of foamed nickel, 0.5 kg of di-n-butyltin dilaurate, 0.4 kg of polybithiazole, 1 kg of ammonium molybdate and 1 kg of toner, mix well, and grind for 5 minutes;
[0034] (2) Put it into a crucible, keep it at 900°C for 2 hours, then raise the temperature to 1200°C at a heating rate of 100°C / min and keep it at 2 hours to obtain glass liquid;
[0035] (3) Pour the molten glass into a preheated copper plate mold for molding, put it into a muffle furnace preheated to 700°C and anneal for 2 hours, then cool to room temperature with the furnace to obtain nano-transparent scratch-resistant glass.
[0036] The performance test results of the prepared nano-transparent scratch-resistant glass are shown in Table 1.
Embodiment 2
[0038] (1) Weigh 60kg of silica, 20kg of zirconia, 3kg of glass beads, 1kg of sodium fluorozirconate, 1kg of sodium fluorosilicate, 1kg of barium oxide with a particle size of 30nm, and 1kg of methyltriacetoxysilane , sodium hydroxide 1kg, nickel foam 0.5kg, di-n-butyltin dilaurate 0.5kg and polybithiazole 0.4kg, mix well and grind for 5 minutes;
[0039] (2) Put it into a crucible, keep it at 900°C for 2 hours, then raise the temperature to 1200°C at a heating rate of 100°C / min and keep it at 2 hours to obtain glass liquid;
[0040] (3) Pour the molten glass into a preheated copper plate mold for molding, put it into a muffle furnace preheated to 700°C and anneal for 2 hours, then cool to room temperature with the furnace to obtain nano-transparent scratch-resistant glass.
[0041] The performance test results of the prepared nano-transparent scratch-resistant glass are shown in Table 1.
Embodiment 3
[0043] (1) Weigh 70kg of silica, 30kg of zirconia, 5kg of glass beads, 2kg of sodium fluorozirconate, 2kg of sodium fluorosilicate, 2kg of barium oxide with a particle size of 20 nm, and 1.5 kg of methyltriacetoxysilane. kg, sodium hydroxide 1.5kg, foam nickel 1kg, di-n-butyltin dilaurate 0.8kg, polybithiazole 0.8kg, ammonium molybdate 1kg and toner 1kg, mix well and grind for 10 minutes;
[0044] (2) Put it into a crucible, keep it at 900°C for 3 hours, then raise the temperature to 1300°C at a heating rate of 100°C / min and keep it at 3 hours to obtain glass liquid;
[0045] (3) Pour the molten glass into a preheated copper plate mold for molding, put it into a muffle furnace preheated to 800°C for annealing for 1 hour, and then cool to room temperature with the furnace to obtain nano-transparent scratch-resistant glass.
[0046] The performance test results of the prepared nano-transparent scratch-resistant glass are shown in Table 1.
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