DE548525C - Process for the production of high quality dry colored bodies (pigments) - Google Patents

Description

Process for the production of high quality dry color bodies (pigments) It is known that dry color bodies (pigments) with drying oils are then good Paints result, provided they or at least some of their components with drying oils with the formation of fairly impermeable and little swelling soaps react. This soap formation takes place particularly quickly when this Color bodies are present in a particularly fine distribution. In addition, it is also known that the greatest impermeability of color films is achieved when the unchanged, d. H. Color bodies that have not been converted into soap are present in the most densely packed.

The advantage of the quick soap formation due to the fine distribution but can have practically no effect, because of the fine distribution of the color body the amount of oil required to produce a spreadable color must be increased so that there is no longer enough oil with the color body Soaps can be converted from the properties mentioned. The one in this The oil film that forms in the case therefore remains fairly swellable and permeable. Other properties, e.g. B. Opacity and abundance, through such fine distribution may suffer greatly. It has now been found that the Avoid the disadvantages mentioned if you use parts of coarser and finer, particularly reactive, d. H. soap-forming color bodies in such amounts mixed together so that the densest packing of the color bodies is created. Practically the closest packing is determined by finding the largest bulk density. This ensures that the amount of oil required to make it spreadable is not becomes larger than necessary for their conversion to metal soaps as completely as possible is.

It is not necessary that the totality of the color bodies with the. Oil reacts, rather it is even desirable for the preservation of the densely packed the greater part of the color bodies, be it due to their size, be it due to their chemical properties, remains unchanged. In particular Cases when rapid formation of an impermeable film is desired is, or the indifferent color body already has such a particle size distribution, that it already comes close to the closest packing, one can add the fast-reacting, finely divided color body choose higher, so that the limit the closest packing is not quite achieved. In others too Cases when z. B. the unmixed coarser color body for some reasons (favorable surface quality, etc.) very reactive in and of itself is so that it reacts quickly with substantial proportions of the oil, you can remain somewhat below the limit of the closest packing.

Example i A red lead no. I with a particle size of about q. - 30, u and a liter weight of 341 0 g requires about 18% linseed oil varnish to produce a spreadable paint. Another red lead No. 2 with a particle size below i, u and a liter weight of 1330 g has an oil consumption of about 30 ° j. If you mix red lead No. i with red lead No. 2, so that you get the closest packing (maximum bulk weight) with a liter weight of 3610 g, i.e. 97 parts by weight of red lead No. 1, 3 parts by weight of red lead No. 2, hereinafter referred to as No. 3, the oil consumption does not rise significantly above 18%. If the swellability test is carried out two days after the paints have dried, the swellability of the paints from red lead no. I turns out to be approximately equal to the swellability of the paints from red lead no. 3 and amounts to about 33% / a. If, however, the investigation is carried out after the paints have aged for 2 months, ie after the soap formation has continued to progress, the swellability of red lead no. I falls by 23%, whereas that of mixture no. 3 by 26 ° 1p despite the fact that the composition of red lead no. i is already close to the cheapest package. In contrast, the highly dispersed red lead No. 2 used for improvement swells by 36% shortly after drying; with further aging, however, the swellability only drops by 3.7% rusting underneath and rust penetration quickly occurs, while at the same time the already coarser red lead No. i shows only individual rust spots, whereas the improved red lead No. 3 does not yet show any rust a weight per liter of 2.55 kg required for Spreadable make up about 30 '/, boiled linseed oil, zinc white having a particle size of below about i, et and a weight per liter of 0.53 kg required for Streichfäliigmachen approximately 45 ° j "linseed oil varnish. If the two pigments are mixed so that the closest packing is obtained, ie 3 parts of zinc white with 97 parts of barite give a liter weight of 2.65 kg, then only 30% of the linseed oil varnish is needed to make it spreadable. In this case, since the related barite already has a composition close to the densest packing, one can go higher with the finer addition, zinc white, an addition of 10 parts zinc white would result in a liter weight of 2.45 kg, i.e. below that close packing, but the oil consumption would remain the same, about 30 per cent. Instead of barite you can also use color bodies in which this is present as a substrate, e.g. B. Heliofast yellow.

Dry paints can be produced by the present process from the following starting materials: Indifferent color bodies: z. B. Lithopone, titanium white, Chrome oxide green, guignet green, chrome yellow, barite and colors with a heavy pathogenicity, z. B. Helio-fast red, etc.

Soap-forming color bodies: e.g. B. Zinc white, white lead, lead oxide, red lead, basic lead chromate, basic lead sulfate.

Claims (1)

PATENT CLAIM: Process for the production of high-quality dry color bodies (Pigments), characterized in that rapidly soap-forming color bodies Tnit -other Color bodies are mixed in approximately the closest packing.