A kind of preparation method of superfine magnesium fluoride

Abstract

The invention discloses a method for preparing ultrafine magnesium fluoride. The method includes steps of firstly, dissolving excessive sodium fluoride with the particle size of 0.2-1.0 mm in water toobtain solution, placing the solution in constant-temperature water bath kettles and carrying out water bath at the water bath temperature of 5-20 DEG C under the control to obtain saturated sodium fluoride solution with undissolved sodium fluoride particles; secondly, completely dropwise adding, by weight, 10-25% of magnesium chloride solution into the saturated sodium fluoride solution in 1-2 h, continuously stirring the magnesium chloride solution and the saturated sodium fluoride solution, and continuously carrying out reaction for 1-2 h after the magnesium chloride solution is completelydropwise added into the saturated sodium fluoride solution so as to obtain suspension; thirdly, filtering, washing and drying the suspension to obtain the ultrafine magnesium fluoride. A molar ratioof magnesium chloride to sodium fluoride is 0.5:1. The method has the advantages that the purity of the ultrafine magnesium fluoride prepared by the aid of the method is higher than 99.0%, the impurity content of the ultrafine magnesium fluoride is lower than 0.01%, the D50 particle size of the ultrafine magnesium fluoride is 5-15 micrometers, and the D97 particle size of the ultrafine magnesium fluoride is smaller than 30 micrometers.

Description

technical field [0001] The invention relates to a preparation process of magnesium fluoride, in particular to a preparation method of ultrafine magnesium fluoride. Background technique [0002] The infrared transmittance of magnesium fluoride polycrystal can reach more than 90% in the 3-5 μm medium-wave infrared band and the thickness of 2 mm, which is the highest self-transmittance among existing infrared materials. Magnesium fluoride polycrystal also has many characteristics such as high mechanical strength, strong thermal shock resistance, chemical corrosion resistance and isotropy, and its dielectric constant and dielectric loss are small, it is a good medium wave infrared window, fairing Materials and mid-wave infrared / millimeter wave (microwave) composite radome materials, widely used in infrared guidance, infrared imaging guidance, infrared / millimeter wave (microwave) composite guidance, and infrared tracking, detection, and guidance for aircraft infrared pods, photoe...

AI Technical Summary

Problems solved by technology

Since this document uses high temperature conditions, NaF solution and MgCl 2 The solution directly reacts in the liquid-liquid phase without adding any seed crystals, so the generated MgF 2 The particles are extremely fine, only 1-2 μm, and it is difficult to wash and filter to remove impurities, resulting in high impurity content, which cannot meet the requirement that the main content of ultra-fine magnesium fluoride products should not be less than 99%.

[0006] In addition, although the purity of the existing high-purity magnesium fluoride can reach more than 99.9%, it has no requirement on the particle size of the product, and the obtained MgF 2 The particle size is uneven, and it cannot meet the requirements of D50 between 5 and 15 μm and D97 less than 30 μm

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