DE872812C - Soap - Google Patents

Description

Soaps The use of water-soluble cellulose ethers, such as alkyl and oxyalkyl celluloses, as fillers and extenders for soaps and soap-containing products is known. When soaps are filled with these ethers, however, they show up in particular then, if one produces highly filled soaps for the purpose of saving fat, numerous Disadvantage. These cellulose ethers are: not heat-resistant, their solutions flocculate when heated, which is considerable in the manufacture of curd soaps and soft soaps Causes interference. There is also a relatively large addition, as it is at the cellulose ethers are high-quality substances, a not inconsiderable increase in price in the wake.

It has now been found that one can comfortably and economically high-fill Soaps can be produced if the alkali salts, which are soluble in water and aqueous alkalis, are used the cellulose glycolic acid used in conjunction with starch products that swell in water (Swelling strength).

The filling power of starches in soaps is known to be low, man must add relatively large amounts of starch, but this with great disadvantages is linked. It has now been shown, surprisingly, that you can get very excellent Fillers are obtained when the alkali salts of cellulose glycolic acids are added to the swelling starch appropriately mixed. Such mixtures are completely heat-resistant in solution, so that no precipitations or disturbances occur when the soaps are boiled.

In the production of soft soaps it turns out that one is used for dressing Much less lye is required than when using the alkyl celluloses. the Dressing is very easy to recognize, even with high fillings, what the fabrication significantly relieved. The soft soaps produced in this way are perfect clear and transparent. One fills; Curd soaps with these mixed products, so get you get a smooth, shiny surface with a good grip. The curd bars are despite low. Fatty acid content retains its shape without shrinking during prolonged storage or to warp. Above all, however, there is greater economic efficiency versus the use of alkyl celluloses.

The advantages mentioned are particularly noticeable, if you convert the starch to swelling starch with the - production of the alkali salts which combines cellulose, eglycolic acids in a suitable manner. This cellulose derivative are known to be prepared in such a way that 'one halogen fatty acid on alkali cellulose lets act; then by precipitation and washing with alcohol one gains. the pure water-soluble cellulose compounds It has now been found that the reaction product also precipitate with acids or acid salts, especially acidic aluminum compounds can; the insoluble free cellulose glycolic acid or an acidic acid is then obtained Salt. If you mix these water-containing insoluble compounds with starch with the addition of small amounts of alkali, so can: one, the product according to known Methods of producing starch, e.g. B. by heating in a thin layer over 100 ° heated rollers, at the same time unlocking and turning into a dry product convict. You then get a completely uniform, homogeneous powder that is not a native starch, but a starch that swells in cold water contains and is extremely easily soluble in: water and aqueous alkalis.

This dry product is particularly suitable for the production of highly filled soaps of all kinds. It does not separate, the solutions are unlimited durable without the starch separating from the cellulose derivative. Particularly beneficial are mixtures that contain about 40 to 60% starch; but you can also do others Select proportions according to the requirements. Also for manufacturing of soap powder, liquid soaps and other soapy products are these Fillers suitable in the same way. Application examples z. Alkali cellulose will treated in a known manner with monochloroacetic acid. The reaction product will precipitated with an excess of alum and washed with water. ioo kg of the hydrous Product, containing 20 g dry substance, are kneaded with 20 kg potato starch and neutralized with soda. The paste is dried on rollers heated to over 100 ° and ground. 5.5 kg of the dry product are dissolved in 945 kg of cold water.

100 kg of a discontinued curd soap (63% fatty acid content) are 22! kg of water glass, 8 kg of sodium hydroxide solution 20 ° Be heated to 70 to 80 °, then add & kg of the above filling solution. A curd soap with a fatty acid content of 45.5% is obtained.

2. 100 kg of a ground potash soap with a fatty acid content of 38.8% are mixed with 5 kg of water glass, 5 kg of water, 1 kg of potassium hydroxide solution q.2 ° Be, then 2o kg of the filling solution prepared according to Example i were added. After dressing with small amounts of potassium hydroxide, which is very easy to carry out, one obtains a Smooth, transparent soft soap with a fatty acid content of around 32.5%.

Claims (1)

PATRNT CLAIM: Soaps with an addition of alkali salts containing starch of cellulose glycolic acid as a filler.