Diamond polishing paste in high purity, and preparation method
A nano-diamond, high-purity technology, applied in chemical instruments and methods, polishing compositions containing abrasives, other chemical processes, etc., can solve the problems of inability to precisely process the inner hole of the ceramic ferrule of the optical fiber connector, low viscosity, etc. Achieve good dispersion stability and rheological properties, good wetting effect, and high polishing efficiency
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Embodiment 1
[0036] Take 0.5g of diamond micropowder with a purity of 99.9% (with a particle size distribution of 100-200nm), add 5g of 1,4-butanediol, stir, and ultrasonicate for 8 minutes to fully wet it. Add 0.3g of nonylphenol polyoxyethylene ether (OP-10) and 68.9g of glycerin to form a mixed solution. Add 25g of heated and dissolved polyethylene glycol to the mixed solution, stir it evenly, and sonicate for 10 minutes. Adjust the pH to 8 with triethanolamine, stir for 30 minutes, and then sonicate for 10 minutes to obtain a high-purity nano-diamond polishing paste. The polishing paste can be stored stably for 6 months, with a high shear viscosity of 4800mpa.s and a low shear viscosity of 8500mpa.s.
Embodiment 2
[0038] Take 2g of diamond micropowder with a purity of 99.9% (with a particle size distribution of 100-200nm), add 20g of ethanol, stir, and sonicate for 20 minutes to fully wet it. Add 1g of sorbitan fatty acid ester polyoxyethylene ether, add 31g of glycerin to form a mixed solution, then add 45g of polyvinyl alcohol that has been heated and dissolved, and stir while adding for 30 minutes. Add ethanolamine to adjust the pH to 9, and shear at a high speed of 10000r / min for 30min to obtain a high-purity nano-diamond polishing paste. The polishing paste can be stored stably for 6 months, with a high shear viscosity of 5800mpa.s and a low shear viscosity of 10500mpa.s.
Embodiment 3
[0040]Take 5g of diamond micropowder with a purity of 99.9% (with a particle size distribution of 100-200nm), add 1g of stearic acid, and ultrasonicate for 5 minutes to fully wet it. Add 0.5g of mannose and 68g of glycerin to form a mixed solution, then add 25g of polyoxypropylene polyoxyethylene block polyether, and stir for 60 minutes while adding. Add ammonia water to adjust the pH to 8, and mechanically stir for 30 minutes to obtain a high-purity nano-diamond polishing paste.
[0041] The high-purity diamond polishing paste prepared by Example 3 was stored for 6 months without sedimentation, and its high-shear viscosity was 6500mpa.s, and the low-shear viscosity was 9500mpa.s. Use this polishing paste to polish the surface of the micro inner hole of the ceramic ferrule of the optical fiber connector. There are no slip marks or black spots on the inner hole surface. After testing, the insertion loss and return loss meet the national standard requirements.
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