SU1151463A1 - Method of producing milled decorative mica - Google Patents

Abstract

A METHOD FOR MANUFACTURING MILK DECORATIVE MICA, including the operations of grinding, classification, hydrothermal treatment, thickening and drying, differs in that, in order to increase the gloss and opacity of compact particles, the product that has undergone hydrothermal processing is directed to the distribution of the class by the classification and the classification of the classification and the opacity of the particulate matter, the product that has undergone the hydrothermal processing, is directed to increase the glossiness and opacity of the particulate material. flow of 0.9-1.1 cm / s, followed by removal of substandard particles less than 40 microns in size by hydraulic classification.

Description

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O) 00 The invention is intended to produce ground decorative mica for wallpaper. A known method for the production of ground decorative mica, including the operations of grinding, classification, hydrothermal processing, thickening and drying II. The disadvantage of the known method is that the mica obtained according to the method does not meet the modern requirements of the wallpaper industry according to the degree of gloss and opacity. The purpose of the invention is to increase the blackness and opacity of mica particles. The goal is achieved by the fact that according to the method of producing ground decorative mica, which includes the operations of grinding, classification, hydrothermal treatment, thickening and drying, which has undergone hydrothermal processing, is directed to the development of an increase in the flow rate of 0.9-1.1 cm / s with the subsequent removal of substandard particles less than 40 microns in size by hydraulic classification. The proposed method includes the following operation. Factory scrap is crushed, classified, the sublattice product is thermally heated at 745765 ° C and quenched in water, then the cleavage of mica particles is supplied to wet dispersion at an upward flow rate of 0.9-1.1 cm / s, then in a hydrocyclone a small sub-grade class of mica less than 40 µm is removed, then the product obtained in this way is dried and dried. thermal at high temperatures, then the second stage of grinding (but already wet) is well stratified, i.e. possesses increased hiding power, and after the separation of small classes and increased shine. Thermal treatment at temperatures below 745 ° C does not give a qualitative splitting of mica particles, and at a temperature of 765 ° C leads to a change in the color of mica, reducing its decorative qualities. Wet dispersion leads to a reduction in the size of mica on the area, and on the thickness due to the exfoliating action of water. 632 Examples 1-15. The mica muscovite of the Mamsko-Chuysk field is preliminarily crushed with a hammer mill with a 5 mm deck, served on a screening with a mesh of 200 µm. The separated product (less than 200 microns) is thermally heated at 745, 750, 755, 760, 765s in water and fed to the wet regrinding on a dispersing device with upward flow classification at speeds of 0.9; 1.0; 1.1 at each temperature of thermalization, and then for classification in a hydrocyclone with a diameter of 50 mm dp, removing particles of mica less than 40 microns. After that, the product is concentrated on the OGSh352-K6 auger precipitation centrifuge to a moisture content of 30% and dried in an induction drier to a moisture content of not more than 8%. The mica obtained has a gloss of 18.5-19.1% and improved adhesion to the surface to be coated. Examples 16-18. Milled pre-crushed on a hammer mill and screened on sieving (example 1-15) are thermally heated, then quenched in water and ground in a dispersing device at an upflow rate of 0.9; 1.0; 1.1 cm / s, classified, thickened and dried. Thermally mica at 740c has a lower luster (17.5%) compared with mica obtained in examples 1-15. Examples 19-21. Preliminary crushed; and the mica that is separated on sowing is thermalized at, quenched in water, dispersed and classified at an upstream flow rate of 0.9; 1.0; 1.1 cm / s, thickened and dried. Mica changes its color, reducing the decorative properties of the wallpaper. Examples 22-25. Crushed and scattered on sieving mica is thermalized at 745, 750, 755, 760, quenched in water, dispersed at an upward flow rate of 0.8 cm / s, classified, thickened and dried. The mica obtained has a lower brilliance compared to the mica obtained in Examples 1-15, due to the large amount of oversized particles. Examples 26-31. Crushed, dispersed at sieving and thermally heated at 745, 750, 755, 760, mica is quenched in water, crushed in a dispersing device at 3ir5U634

the growths of the upstream flow of 1.2 cm / s, for a large number of insufficiently split, classify, thicken and dry. Lolen particles.

lucy mica has a lower expected annual economic hiding power compared with the sludge effect of using the invention soybean as obtained in examples 1-15, iz-. Tavit 300 rubles for 1 tmoliva slyuly.

Claims (1)

METHOD FOR PRODUCING MILLED DECORATIVE Mica, including grinding, classification, hydrothermal processing, thickening and drying operations, characterized in that, in order to increase the gloss and hiding power of mica particles, the product that has undergone hydrothermal treatment is sent for further splitting with classification at an upward flow rate of 0 9-1.1 cm / s followed by removal of substandard particles less than 40 microns in size by hydraulic classification.