Preparation method for stable borosilicate sol with high specific surface area
A high specific surface area, sol technology, applied in the direction of chemical instruments and methods, boron compounds, retention aids, etc., can solve the problems of commercialization of boron modified silica sol, decrease of specific surface area, long trouble time, etc. The conditions of the preparation method are easy to control, the repeatability is good, and the storage is good.
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Embodiment 1
[0022] Embodiment 1: with borax (Na 2 B 4 o 7 10H 2 O) 8.0g dissolved in 1000ml SiO 2 In the water glass (modulus 3.2) that mass percent composition is 6%, the solution obtained passes through 732 # Strongly acidic cation exchange resin column (H + type) to remove metal ions to obtain 1240ml of dilute borosilicate, with a pH of 2.14; slowly add dilute borosilicate to 60ml of 1.5M NaOH solution under stirring to obtain a borosilicate sol with a pH of 8.97, and then stir at 50°C React for 1h, then cool to room temperature, and then use 732 # Strongly acidic cation exchange resin (H + type) to a pH of 7.2, remove the resin by filtration and add 4% cetyltrimethylammonium hydroxide aqueous solution under stirring to adjust the pH of the borosilicate sol to be 9.46, and dilute the borosilicate sol with deionized water for 1 times and then ultrafiltration purification and concentration to SiO 2 The mass percentage is 16.5%, then add 4ml of 1% sodium alginate aqueous solution,...
Embodiment 2
[0023] Embodiment 2: Boric acid 1.15g is dissolved in 720ml SiO 2 Mass percent composition is in 3% water glass (modulus 3.6), gained solution directly and strongly acidic cation exchange resin (H + type) mixing and stirring treatment to remove metal ions so that the pH value of the solution is 1.72, quickly filter off the resin, and slowly add the obtained dilute borosilicate to 90ml SiO 2 A borosilicate sol with a pH value of 8.75 was obtained from a mixture of 8% water glass (modulus 3.6) and 50ml 4.8% borax aqueous solution by mass percentage, then stirred and reacted at 65°C for 0.5h, and then cooled to room temperature , and then the resulting borosilicate sol with 732 # Strongly acidic cation exchange resin (H + type) to a pH of 7.5, quickly filtered to remove the resin, and slowly added 2M LiOH aqueous solution under stirring to adjust the pH of the borosilicate sol to 9.0, and purified the borosilicate sol by ultrafiltration and concentrated to SiO 2The mass percen...
Embodiment 3
[0024] Embodiment 3: Potassium tetraborate (K 2 O·2B 2 o 3 4H 2 O) 1.17g dissolved in 400ml SiO 2 Mass percentage composition is in 8% water glass (modulus 3.2), gained solution directly and 732 # Strongly acidic cation exchange resin (H + Type) mixing and stirring to remove metal ions so that the pH of the solution is 1.09, and quickly filter off the resin; slowly add the obtained dilute borosilicate to the mixed solution of 15ml 2M KOH solution and 60ml 4% potassium tetraborate aqueous solution under stirring A borosilicate sol with a pH value of 9.5 was obtained, and then the borosilicate sol was stirred and reacted at 25°C for 6 hours, and then the obtained borosilicate sol was treated with 732 # Strongly acidic cation exchange resin (H + type) to a pH of 8.2, quickly filtered to remove the resin, then added 2M LiOH aqueous solution with 8% triethanolamine under stirring to adjust the pH of the borosilicate sol to 9.7, diluted the borosilicate sol by 2 times, purifie...
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