SU115677A1 - Method for preparing ion exchange membranes - Google Patents

Description

Methods are known for producing homogeneous type membranes based on condensation products of sulfophenol or melamine with formaldehyde or methyl derivatives of phenol with polyethylene polyamine. However, such membranes are of very limited use due to their low mechanical strength and the lack of necessary elasticity.

In the described method, in order to increase the elasticity and mechanical strength of the membranes, it is proposed to obtain them on the basis of resins formed by the condensation of sulfophenol Iosh melamine with formal, dehydrated or methylol derivatives of phenol with polyethylene polyamines in the production of polyvinyl alcohol. The resulting cation and anionic type membranes have a very low electrical resistance (10-50 ohm cm), but the transfer numbers of the corresponding ions are quite high (0.85-0.90), the mechanical strength is satisfactory (10 / cg / cs), the elasticity is high ( 200-500%).

These membranes can be used for osmotic desalination of salt water, for dialysis of various organic substances, for separating electrolytes from non-electrolytes, and are also of interest for research purposes, since they do not contain any impurities.

Example 1. 24 g of phenol is sulfurized by heating to 110 ° with 17 ml of concentrated sulfuric acid (monohydrate). The resulting sulfomass is cooled, 5 lgl of water is added in portions of 23 g of 37% formalin at 30-40 °. Then the mixture is kept at this temperature for 20-30 minutes. and add to the flask a 5-10% solution of polyvinyl alcohol in water in an amount based on dry polyvinyl alcohol 10-50% of the weight of the loaded phenol. The mixture is kept at this temperature for 0.5-1 hours until a clear snrop is obtained, which is poured into molds. When loading 10% polyvinyl alcohol in the mixture, an excess amount of formalin at the rate of 3-5% formalin to the weight of the excess polyvinyl residue is added to the mixture before aging.

Example 2. In the flask load 6.5 g of melamine and 14 g of 37%

formalin and heat for 20 min. up to 70-75 °. Then, 65 g of a 10% aqueous solution of polyvinyl alcohol and another 10 g of formalin are added to the solution cooled to 50 ° C. The mixture is stirred for 30 minutes. after adding a few drops of hydrochloric acid to a weakly acid reaction. Then 30 ml of 15% hydrochloric acid are added and the mixture is stirred until a viscous clear syrup is formed, which is then poured into molds and membranes are prepared in the usual way.

Example 3. In the flask AI 1 load 10 g of phenol and 20 g of 37% formalin and heat it under reflux for an hour at t 90-100 °. In a jYo 2 flask, 20 ml of concentrated hydrochloric acid is added to 16 g of formalin, stirred, and then 14 g of polyethylene polyamines are added slowly in an ice bath. 60 g of a 7% aqueous solution of polyvinyl alcohol is added to the flask JY 1, stirred and slowly cooled into the flask L 2 while cooling. Then gradually raise the temperature to 50 ° and keep the mixture at this temperature for 0.5-1 hours, after 14 ml of hydrochloric acid are introduced and mixed until a clear syrup is formed, which is poured into molds and cured in the usual way.

Subject invention

The method of obtaining homogeneous-type ion-exchange membranes based on condensation products of sulfophenol or melamine with formaldehyde or methyl derivatives of phenol with polyethylene polyamines, characterized in that, in order to increase the elasticity and mechanical strength of membranes, condensation of sulfophenol or melamine with formaldehyde or polymethylene phenol from polyethylene polymers is in the presence of polyvinyl alcohol.