SU117450A1 - Method for preparing ion exchange membranes - Google Patents

Description

A method of producing ion exchange membranes is known by molding a composition from finely divided IONIT resins and a mixture of polyethylene with polyisobutylene as a high molecular weight bond, 1. These membranes are used as diaphragms in electrochemical industries at temperatures not exceeding 40-50 °.

In order to increase the heat resistance of the IONITE membranes, it is proposed to use polypropylene as a binder. The membranes prepared on polypropylene have a significantly higher heat resistance than membranes on polyethylene and can be used in conditions of temperatures of 50-70 °.

To increase the elasticity of the membranes, polyisobutylene is added to the polypropylene in an amount up to 50% by weight of the polypropylene.

In addition to altering the method of preparing membranes, instead of polypropylene, the use of a copolymer of nylon propylene is used, for example, hexafluoroprone, a member with vinyl dephenyl fluoride.

that learns the mechanical and electrical properties of the 5membrane.

When used as a binder copolymer of hexafluoropropylene with vinyl fluoride fluoride, the mixture can be rolled at lower temperatures (60-80 °).

Example 1. 15 wt. including polypropylene are mixed on rollers with 15 wt. including polyisobutylene at 150-160. To the mixture added 70 wt. including finely divided nonite resin grade KU-2 at a rolling temperature of 120-140 °.

After the required homogenisation of the composition and rolling, the film is removed from the rolls, which can be calendered or pressed in the usual way. The resulting membranes have the following properties. tensile strength --- 43 K, cm, elongation at times | 1st-32%, swellability, - 130%, electrical resistance in KS-1900 solution, see

PRI mme R 2. 40 weight. including copolymer of gxsafluoropropylene with fluoride nl yld1; ohm (fluoroplast 26)

valg1ut at 60-80 ° for min. to form a film, after which 60 g of an ionic resin are fed to the rollers, in the form of powder.

After 20 minutes of homogenization, the film is removed from the rolls and mass is rolled. The rolled mass can be calendered or pressed in the usual way: on. The resulting membranes have the following properties: tensile strength - 40-50 kg1cm, elongation at break- 60-100%, the number of kinks by 180 ° is 4-6 times, the electrical resistance is 200-3000 m. See the transfer number for the corresponding ions 0 , 94-0.98, heat resistance - up to 120 °.

In the production of memembrane, various ratios of the starting components can be taken: polypropylene-polyisobutylene-ionite and pure vinafluoropronylenidedenite.

Subject and s about b) e te

Claims (2)

1. A method of producing ionite membranes by mixing ionite resins with high polymer compounds followed by molding the mixtures obtained into thin sheets, characterized in that polypropylene is used as a high molecular weight substance to increase the heat resistance of the membranes. 2. A variation of the method according to claim I, characterized in that, in order to improve the mechanical and electrical properties of the membranes, a copolymer of halogenated propylene, for example, hexafluoropropylene with vivilidene fluoride, is used as high polymer compounds.