SU373255A1 - The method of modifying silica - Google Patents

Description

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Methods are known for modifying silica by applying a surface to polymers with specific properties.

Silica, which is a crystalline silicon dioxide, is widely used in chemical, electronic, electrical, and other industries as adsorbents; fillers of press compositions and rubber mixtures; grease thickeners; chemical reaction inhibitors; dielectrics, carriers (substrates), increasing the efficiency of catalysts, etc. Powdered silica has a highly developed surface, thermal and chemical resistance. Surface-active properties are a determining factor in the molecular interaction of silica with various substances. Surface hydroxyl groups play an important role in the development of various properties of silica.

There is a method of chemical modification of the surface of the silica to give them specific properties. The method is based on the replacement of the active functional groups on the surface of a solid with other atoms or groups of atoms. For example, modifying silica by treating with alkyl or aryl chlorosilanes gives them hydrophobic

properties. The products obtained in a known manner are not sufficiently heat resistant, since the modifying substances are not retained by the silica surface when heated, which

limits their use at high temperatures. Often, when modified in a known manner, the dispersion of silica changes, which is undesirable. To improve the quality of the product, it is proposed to use a polymer as a modifier, for example polytetracyanoethylene, TPE, polytetracyanbenzene TCB, which is obtained from the corresponding monomer from the gas phase.

Example 1. In a two-section reactor through the process, which is then sealed, load 18.5 g of silica BS-U-333 with a specific surface area (bo) 52. 0.46 g of TPE is charged to the section. Reactor vacuum

at room temperature (mm Hg. Art.) For 2 hours. The process is removed by means of a holder, the reactor is attached to the motor and placed in a horizontal cylindrical electric furnace preheated to 270 ° C. The reaction is carried out for 10 hours at a constant rotation of the reactor at a speed of 120 rpm, which ensures continuous movement. Then the reactor is opened and additionally heated

silica in air for 5 hours at 110 ° C