DE747121C - Production of viscous, colloidal potassium metaphosphate solutions - Google Patents

Description

Manufacturing. viscous, colloidal potassium metaphosphate solutions The patent specification 743 ooz describes a process for converting water-insoluble potassium metaphosphate (Kurrol's salt) into a viscous colloid-soluble form, which consists in reacting the potassium metaphosphate with solutions of electrolytically weakly dissociated sodium salts at ordinary temperatures that on q. KP 0.3 5 to 7 moles of Nag O in the sodium salt can be used, and it goes into colloidal viscous solution. The process cannot be explained by double salt formation, but only by colloid electrolytic processes.

The disadvantage of this procedure is that it is only weakly dissociated Sodium salts used in relatively large excess at ordinary temperatures can be.

It has been found that viscous clear colloid solutions of insoluble Potassium metaphosphate also through reaction with any dissociable sodium salt solutions can get. Surprisingly, one also gains clear solutions with any dissociable sodium salts, if you do the reaction at an elevated temperature and equal parts by weight or less of sodium salt to 1 part by weight of potassium metaphosphate applies. That's enough z. B. even i part by weight of sodium carbonate 5 or even 10 parts by weight of potassium metaphosphate if you consider the suspension of the latter in the soda solution 5 to io; minutes at 80 or a few seconds on go to ioo ° heated.

Other sodium salts can also be used in place of soda. Sodium salts whose solutions have little electrolytic properties are best suited or are not dissociated at all. Also strong electrolytes, like sodium sulfate, are capable of producing highly viscous aqueous solutions of insoluble matter at elevated temperature Generate potassium metaphosphate when applied about 1 part to 10 parts metaphosphate will.

The special effect of the method according to the invention is that that through relatively small amounts of sodium salts a 'high degree of solubility des Kaliummetaphos.phats and thus a high degree of viscosity is generated. Up to now it has not been possible to use the sodium salts in question to form viscous solutions Manufacture that are relatively large: Quantities: in solubilized potassium metaphosphate contain.

The inventive transfer of the insoluble potassium metaphosphate viscous colloid solutions means a great tech. niche progress as it is under In some circumstances it is very important to find such 'etaphosphate solutions in a simple manner that are as low as possible in foreign sodium salts. Examples i. One Mixture of 2 parts of normal, insoluble potassium metaphosphate and 1 part of Glauber's salt parts of water from 90 to 100 ° are added to the zoo while stirring. In no time A clear colloid solution with a relative viscosity of 6.6 develops. To achieve greater stability of the viscous solution obtained, the Solution immediately diluted with cold water.

2. Parts of water-insoluble potassium metaphosphate are divided into 100 parts boiling hot. Water containing i part of sodium chloride, entered with stirring. After a few minutes there is a completely clear solution with a relative viscosity from about: 4o occurred. To prevent the dissolved metaphosphate from decomposing, the solution is immediately diluted with an excess of cold water.

Claims (1)

PATri`TAN.SPizuCa Process for the production of viscous colloid solutions from water-insoluble Kaliummetaphosp'hat, further training according to the working method Patent 743 002, characterized in that the insoluble potassium metaphosphate is included phosphate-free, weakly or strongly dissociated sodium salt solutions in the Heat is treated in such a way that for every i part of potassium metaphosphate only i part at most Sodium salt is applied.