TH4230B - Method for producing titanium oxide particles - Google Patents

Abstract

The invention involves a method for preparing pigmented particles of titanium dioxide. The method consists in reacting the original state of titanium tetrahalide. with sulfuric acid in solution to form a titanyl sulfate intermediate product. After crystallization and separation of this intermediate product from the crystal solution, this intermediate product is re-dissolved. in an aqueous solvent and reacts with water at the desired temperature range to form amorphous particles of titanium dioxide. which is the intermediate product after separation of the aqueous solvent. This intermediate product is sintered and ground at the desired temperature range to produce the desired titanium dioxide particles as the final product.

Claims (9)

1. The method used for the production of titanium dioxide particles. From titanium tetrahalide Which consists of steps of To make a solution containing a part of water containing thi Tanium Tetrahalide And sulfuric acid and each substance heating Pattern with water that part thereof until the level of temperature Increased enough until titanium The tetrahalides and the subfuric acid react to form the final product. Medium containing titanium Sulfates dissolved in solution The first part. And to produce by-products, hydrogen halide gas Further heating of the first part aqueous solution as Said at elevated temperature levels And with the particles of Titan A number of nil sulphates that were previously prepared by At the intermediate product that is dissolved titanium sulfate They are then crystallized from the aqueous solution. The separation of the crystalline intermediate products of titanium subphate. Out of the aqueous solution of the first part to produce a paste-like filtration component containing lip The residual primary curcumin and the titanium sulfate intermediate product To make a second aqueous solution consisting of a part Obtained from such filtration that dissolves in a solvent medium that A certain amount of water Such quantity is sufficient to have an effect on each The pattern of the intermediate product is titanium sulfate crystal, which is In the part obtained from the said filter But it won't be enough to have Effect on the reaction with water or hydrolysis in there Adopting a crystalline intermediate product of titanium subfate that Then dissolved to perform the hydrolysis reaction by mixing each substance The second part of the aqueous pattern with aqueous solvent medium. Such an additional amount that has been heated until the level of Temperature rise Which the intermediate product is crystal Tai The dissolved tanol sulfate contained in the second solution as It was hydrolyzed. To obtain the intermediate product of the Titanium dioxide morphology Intermediate product separation of titanium amorphous particles Such oxides to provide a particle product of Crystals of titanium dioxide and to obtain a product that is Such crystals from production 2. The methods stated in claim 1, where titanium tetrahalide is Titanium tetrachloride and hydrogen halide gas by-products are hydrogen chloride. 3. Methods stated in claim 1, where sulfuric acid The rick is contained in aqueous solution. The concentrations ranged from approximately 60 to approximately 80 percent by weight of the first solution. 4. Methods stated in claim 1 where the solution That part of the water will be heated to a level of Temperature between about 25 ํ up to the boiling point of each substance The pattern with the water part one. 5. Methods stated in claim 1, where the Is continuously heated to a solution containing one part of the water. Said, with such amounts of titanium subphate particles as It consists of heating the aqueous solution. The one at the boiling point of aqueous solution. 6.Methods stated in claim 1, which are approximately as follows: Said of titanium sulfate particles contained in each substance The pattern with one such part contains sufficient quantity. That will affect the initial cause of the product crystallization. The intermediate is the Titanic sulfate that dissolves. 7.Methods identified in claim 6, where the volume It ranges from approximately 0.1 to approximately 20 percent by weight of a solution containing the first part. 8.Methods identified in claim 1, where, during Such continuous heating of aqueous solutions In one of these the concentrations of sulfuric acid contained therein are reduced. 9. Methods outlined in Claim 8, where the intensity The concentration of such sulfuric acid is reduced by the addition of a A streak of dilute sulfuric acid to a solution that There is one such part of water 1 0. Methods outlined in claim 9, where the solution Which is the dilute sulfuric acid that is added to it has Subfuric acid concentrations are between approximately 15 and approximately 35 percent by weight 1. 1. Methods stated in Claim 9, where the volume is Such addition of the acidic solution from there It was sufficient to reduce the sulfuric acid concentration. Said in a solution with the first part weight until Concentration ranges between approximately 35 and 50 percent by weight 1. 2. Methods stated in claim 1, where the separation That portion of the titanium sulfate crystal intermediate product. The first part of the aqueous solution consists of bringing the first part of the solution to be filtered within. Under pressure above atmospheric pressure to obtain the Secondary slurry containing a solution containing water that is diluted from it and falls. Residue and the intermediate product of titanium sulfate 1 3. Methods set out in Claim 12, where Part No. It is obtained by such a powdery filter containing aqueous solution. The diluted residues and products The titanyl sulphate medium is approximately 2/1 and less than 1 water. 4. Methods identified in claim 1, where the intermediary acts Such aqueous dissolution of the second aqueous solution as Mention contains water 1 5. The method specified in claim 1, where the quantity is That said, aqueous solvent medium is approximately 3 to about 50 percent by weight depending on the weight of the The intermediate product is titanium sulfate contained in the Obtained from the aforementioned powdery filtration 1 6. Methods stated in claim 1 where the solution Each part contains aqueous solution. Diluted Which residues and products The dissolved titanyl sulfate medium and the additional content of the aqueous solvent medium were Heated to a certain temperature rise before mixing it there.1 7.Methods identified in claim 16, where the solution With each of the aforementioned second water and additional quantities as Each part of the aqueous solvent medium is made. It is heated to a temperature level from about 85 to approximately 105 ° before being mixed in there. 8.Methods set out in claim 1, where after That has been mixed together of the second aqueous solution. And such additional quantities of the aqueous solvent medium, the mixture was heated to a Minimal, about 90 c. To about the boiling point of the said mixture 1 9. Methods specified in claim 1, where the reaction with water of the crystalline intermediate product is The dissolved taniosulfate is carried out under the presence of infection. Reaction or a number of titanium dioxide particles 2 0. Methods stated in claim 19, where the quantity Such a reaction or particles of titanium dioxide. They contain sufficient quantities to influence the yield. Start of reaction with water of the intermediate products Is the aforementioned dissolved titaniels sulfate 2 1. Methods stated in claim 20, where volume The reaction or particle of such titanium dioxide is approximately 0.1 to approximately 10% by water. Heavy depending on the weight of the mixture of aqueous solution The aforementioned second, and the added weighted solvent medium 2. 2. Methods outlined in claim 19, where the quantity Of the reaction or particles of titanium dioxide such It is possible to mix the aqueous solution of the second part and the additional quantity of the aqueous medium. 3. Methods identified in claim 1, where at least In the end, one is mixed into the final product. The medium is a titanium dioxide-bound amorphous particle. 4. Methods identified in claim 23, where the binder is a material of choice from a group consisting of: A group of alkali metal salts and phosphorus containing compounds and germs Reaction or particle of titanium dioxide with rutide structure 2. 5. Methods identified in claim 23, where the The weave will be mixed with the intermediate products that are The amorphous particles of such titanium dioxide in amounts from approximately 0.1 to approximately 10.0 percent by weight depend. To the weight of the non-titanium dioxide intermediate product 2 6.Methods identified in claim 1, where the product The intermediate is the amorphous particles of titanium dioxide as It is then burned and ground at a temperature between approximately 800 c. To approx. 1000 c2. 7. Methods outlined in Claim 2, where there is also an effect that includes a procedure for replacing the by-product. That is hydrogen chloride gas like that to be chlorine gas 2 8. Methods outlined in claim 27, where the procedure Of the separation of the amorphous intermediate product of titanium Such oxide from aqueous solvent medium is Filtration 2. 9. Methods identified in claim 9, where the solution The diluted sulfuric acid contains a solvent that There is water which is separated from the intermediate product which is a The morphology of such titanium dioxide 3. 0. Methods outlined in claim 29, where the solution With that part of the water that is separated from the product The crystalline intermediate of such titanium sulphate is taken to To the area with a concentration of sulfuric acid to be used New to the aqueous solution of the first part.