Preparation method and application of silica sol with irregular shape
An irregular, silica sol technology, applied in the direction of silicon oxide, silicon dioxide, etc., can solve the problems of lack of chemical mechanical polishing effect description, inapplicable chemical mechanical polishing, etc., to achieve good colloidal stability, high polishing rate and process simple effect
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Embodiment 1
[0012] Embodiment 1 prepares silica sol with irregular shape
[0013] Weigh 500g of 10nm small particle size spherical silica sol with a concentration of 2% as the mother liquor, and add it to the three-necked bottle
[0014] Then add 10g of 30% sodium carbonate solution to the mother liquor, stir evenly, and then adjust its pH value to 9-10 with 5% sodium hydroxide aqueous solution. Stir and heat to boiling, drop active silicic acid into the reaction system at a flow rate of 5ml / min, the total amount of silicic acid added dropwise is 2500g of the mother liquor, during which 5% sodium hydroxide aqueous solution is added dropwise to maintain the pH value of the reaction system In the range of 9-10, the dropwise addition was completed and the reaction product was cooled to room temperature.
[0015] according to figure 1 It can be seen from the figure that the silica sol particles in the irregular silica sol have irregular morphology and basically no spherical particles.
Embodiment 2
[0016] Embodiment 2 prepares silica sol with irregular shape
[0017] Weigh 500g of 10nm small particle size spherical silica sol with a concentration of 3.5% as the mother liquor, add it into a three-necked bottle, then add 5g of 25% sodium sulfate solution to the mother liquor, stir evenly, and then adjust its pH with 5% sodium hydroxide aqueous solution Value to 9-10. Stir and heat to boiling, drop active silicic acid into the reaction system at a flow rate of 4ml / min, the total amount of silicic acid added dropwise is 3500g, during which 5% sodium hydroxide aqueous solution is added dropwise to keep the pH value of the reaction system at 9 In the range of -10, the dropwise addition was completed and the reaction product was cooled to room temperature.
[0018] according to figure 1 It can be seen from the figure that the silica sol particles in the irregular silica sol have irregular morphology and basically no spherical particles.
Embodiment 3
[0019] Embodiment 3 prepares silica sol with irregular shape
[0020] Take by weighing 500g of 15nm small particle size spherical silica sol with a concentration of 2.5% as the mother liquor, add it into a three-neck bottle, then add 1000ppm trivalent aluminum ion solution to the mother liquor, stir evenly, and then adjust its concentration with 10% aqueous sodium hydroxide solution. pH to 9-10. Stir and heat to boiling, drop active silicic acid into the reaction system at a flow rate of 5ml / min, the total amount of silicic acid added dropwise is 5000g, during which 10% sodium hydroxide aqueous solution is added dropwise to keep the pH value of the reaction system at 9 In the range of -10, the dropwise addition was completed and the reaction product was cooled to room temperature.
[0021] according to figure 1 It can be seen from the figure that the silica sol particles in the irregular silica sol have irregular morphology and basically no spherical particles.
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