DE576006C - Process for the production of white lithopone - Google Patents

Description

Process for the production of white lithopon It is known, Lithopon from zinc solutions using barium sulfide. The according to the usual procedures However, purified zinc solutions usually still contain small amounts of heavy metal compounds; which give the lithopon its commercial value lowering shades.

According to the known method, iron, manganese, arsenic and copper fall fairly light off, but taking up nickel and cobalt which is the last to precipitate sometimes a very long time to be removed. During this time you can the precipitation tanks are not used for any other purpose.

Generally one does not clean to the last traces. One improves the light yellow shade that nickel and cobalt give the lithopone through mechanical bluing with ultramarine.

It has already been suggested to use heavy metal salts for the purpose of Lithopon Preservation add some lightfastness assuming that this salts converted into oxides or sulphides, the stools, which cause the blackening of the stool Cause, absorb, lithopons. Anyway, the coloration should be obtained Lithopons are not affected.

The invention aims to produce a white lithopone from imperfectly purified Obtain zinc solutions immediately. For this purpose, the zinc solution is incorporated or the lithopone precipitated from it, small amounts of such dissolved heavy metal compounds a, which by precipitation, if necessary with subsequent alcination, Dyes with bluer or g in blue, the yellow and reddish-yellow shades complementing the color of the lithopöns. These compounds which colored or result in dyes that precipitate at the same time as the lithopone or which cover the lithopone are much better distributed in the mass and significantly more active than the finished dyes that were used during the wet or dry milling can be added.

It can therefore be seen that the formation of the dyes in the lithopone even allows undesired shades to be perfectly complemented. Man can use the zinc solutions incompletely cleaned, otherwise without application of the method according to the invention have a very disturbing effect. This results in a saving in terms of time and reactants, and a significantly greater utilization of processing.

The zinc solutions freed from iron, copper, lead, arsenic and cadmium one treated for failure of nickel and cobalt until they one with barium sulfide Give precipitation, which is only slightly yellowish. One adds the Zinc solution then add the salts, which precipitated blue - or green-blue compounds result in itself or these shadings during the calcination of the litho. form pons. Salt solutions can be added directly to the lithopone after it has been precipitated add which one mixes completely with the lithopone. One forms one on it Precipitation of these salts by a suitable precipitating agent and then obtained on the unprocessed lithopon a blue or green pigment coating or a Coating which receives this shade in the course of the calcination of the lithopone. Finally you can also find the suitable salt solutions according to the processed Lithopon add to the damp crushing in a container that feeds the filter press. A precipitate is then formed. these salts of blue or green compounds and finish manufacturing as usual.

EXAMPLE i After the zinc solution has been examined with barium sulfide and only a light, yellow precipitate has been obtained, an amount of chromium sulfate is added to the solution which is sufficient to introduce 50 g of chromium metal for every 100 kg of zinc metal contained in the zinc solution. This corresponds to approximately 263 g of chromium sulphate and can compensate for a content of approximately 50 g of nickel or cobalt, which is contained in solution for every 10,000 g of zinc. As usual, a precipitate is then formed from the zinc sulphate solution with barium sulphide, and it is formed in, for Lithopon, chromium hydrate, which results from the well-known calcination of Lithopon green chromium oxide. The amount of chromium in the lithopone will be about 0.01 ° 10 and give it a much fresher shade without in any way diminishing the possibility of using the lithopone. .- Example-2 'After a precipitate of the lithopone has formed without an excess of barium or sodium sulfide, a solution containing 25 g of zinc sulfate is added to every 100 kg of lithopone in the precipitate container. The mixture is then stirred and a solution containing 25 g of cobalt sulfate is added. After the whole is well mixed, a solution containing zoo g of alum is added, followed by a solution containing 150 g of sodium carbonate. The resulting precipitate will take on a greenish blue color due to the calcination of Lithopon. If a pronounced bluish coloration of the lithopone is required, so. the specified amounts are doubled.

Example 3 The processed Lithopon is before the final filtration a solution containing 25 g of ferrous sulfate was added, followed by a corresponding Amount of potassium or sodium ferricyanur precipitated on neutral lithopone will.

Claims (1)

PATENT CLAIM: Process for the production of white lithopone from imperfectly purified zinc solution still containing 'small amounts of heavy metal compounds, characterized in that small amounts of such heavy metal compounds in solution are incorporated into this or the lithopone precipitated therefrom, which by precipitation formation, - optionally with subsequent Calcination, dyes with a blue or green-blue color that complement the yellow or reddish-yellow shade of the lithopone.