SU710953A1 - Method of producing rutile seeds for preparing titanium dioxide - Google Patents

Description

one

The invention relates to the production technology of titanium dioxide according to the sulfuric acid scheme, in particular to the production of rutile embryos and can be used in pigment technology.

A known method for producing rutile nuclei from titanium tetrachloride by its hydrolysis in the presence of sulfuric acid with heating.

Using this method limits the aggressiveness of aqueous solutions of titanium tetrachloride.

There is also known a method for producing germ embryos by treating titanium hydroxide with a mixture of hydrochloric and hydrofluoric acids.

However, the use of hydrofluoric acid causes severe corrosion of the admixture and creates toxicity of the environment.

A known method for producing rutile nuclei for the manufacture of titanium dioxide by the interaction of hydrated titanium dioxide (DGT) with alkali

the subsequent washing of the formed titanate and its synthesis in a solution of monobasic acid

The disadvantage of the method is incomplete conversion of HDT to titanate due to the low chemical activity of hydrated titanium dioxide, as well as the high content of water-soluble impurities in titanate due to an excess of alkali, which leads to an increase in water consumption for its washing and increases the volume of waste water. waters

The purpose of the invention is to increase the degree of conversion of hydrated titanium dioxide to titanate and reduce the consumption of alkali.

According to the proposed method, the goal is achieved in the presence of an alkali mixture of bromide and natrgga or potassium iodide and alumina ions introduced in an amount of 1-3 to 0.5-1.5 wt.%, Respectively, relative to titanium dioxide, followed by washing the formed titanate. 37 of its hydrolysis in a solution of monobasic acid. PRI me R. To 5OO ml of suspension hydrated by titanium dioxlum with a concentration of ZOO g / l Ti 02, 262 ml of 40% sodium hydroxide solution are poured into which 1.5 g of NcsBr (sodium bromine) and 2.7 g) of serum acid are first injected }, providing, during the interaction with alkali, the content in the mixture is 1.5 g of aluminate ion. The suspension is heated to boiling point and boiled for 4 hours, then cooled. The precipitate in the suspension is separated and washed with distilled water until the alkali content in the filtrate is not more than 1.0 g / l, then neutralized with hydrochloric acid to pH 3, O and washed again until no C6 ions are present in filter 53A pare. The washed precipitate is repulped in water to a concentration of 1OO g / l noTiO, concentrated hydrochloric acid is introduced to a weight ratio {HCC / TiO equal to 0.44-O, 46 the suspension is diluted to a concentration of 50 g / l noTiO2 to boil and boil for 1 hour at constant volume, then cool. The table shows data on the degree of conversion of hydrated titanium dioxide to titanate n alkali consumption, as well as the properties made using the obtained rutile nuclei of the pigment titanium dioxide obtained using the proposed method in comparison with similar indicators of the known solution.

Claims (2)

Claim 1. A method of obtaining rutile seedlings, the interaction of the starting compounds is carried out in the presence of a mixture of sodium or potassium bromide or iodide and aluminate ions. 2. The method of pop. 1, characterized in that sodium or potassium bromide or iodide and aluminate ions are introduced in an amount of 1-3 and 0.5-1.5% by weight, respectively, for the manufacture of titanium dioxide by reacting hydrated titanium dioxide with alkali, washing the formed titanate and its subsequent hydrolysis in a monobasic acid solution, characterized in that in order to increase the degree of conversion of hydrated titanium dioxide to titanate and reduce the consumption of TsNIIPI Order 8583/11 only with respect to titanium dioxide