RU189612U1 - Rail for installing electrodes on electrolysis baths - Google Patents

Abstract

The rail for installing electrodes on electrolysis baths is a plate molded from polymeric material polydicyclopentadiene, which is a product of the catalytic metathesis polymerization of dicyclopentadiene using ruthenium Grubbs catalyst. As a rule, the polymer material contains quartz flour. Preferably, the specified polymeric material contains an additive thickener BYK-410. Preferably, the specified polymeric material contains modifying additives from the group: antioxidants, plasticizers, pigments, inorganic fillers. Preferably, the rail is made of a polymer material by the method of the group: casting into a mold, followed by curing and machining of the finished product. The use of this utility model allows to increase the durability and reliability of the slats during its operation, storage and transportation, as well as simplification of technology, environmental friendliness of its production and cost reduction.

Description

The technical field to which the utility model

The invention relates to equipment for electrolytic refining of non-ferrous metals, chemical and electrochemical processing of products and can be used in the metallurgical industry for the deposition and purification of metals.

The present utility model relates to means (holders) for mounting electrodes on electrolysis baths, in particular, anodes in baths for galvanizing metal objects.

The level of development of the field of technology

Electrolysis baths (electrolyzers) are widely used in the metallurgical, chemical industry and electroplating. Copper, nickel, tin, lead, silver, gold are subjected to electrolytic refining.

There are many constructive solutions of tools and holders of various designs in the form of rods, rails or rims for hanging electrodes on them in electrolysis baths.

For example, SU # 1815274, RU # 116387, 321675, 2400569, 2553161, 2481419, 2266982, 2176289, 2282684.

The closest analogue is an electrolyzer containing a bath with electrolyte, electrodes, a rod (rail) for hanging electrodes (RU No. 2422559, prototype)

Known rails for electrolysis baths were made (sawed) on machines with a loss of material for machining, as a rule, of fiberglass or other laminated plastics that have insufficient thermal and chemical resistance and, therefore, do not ensure the durability and reliability of the product during its operation.

A disadvantage of the known rails is the low durability of the slats for the installation of electrodes due to the accelerated wear of the slats in an aggressive environment - electrolyte, and high consumption of materials in production.

The technical problem resolved in accordance with the present utility model is the creation of a technologically advanced, thermally and chemically resistant rack, the expansion of the arsenal of strips for use in baths for the galvanization of metal objects.

The technical result, which allows to solve the problem, is to increase the durability and reliability of the rail during its operation, storage and transportation, mainly due to the provision of high thermal and chemical resistance: operating temperature up to +120 ⁰ С, resistance up to 98.9% to various acid, 50% sulfuric acid, low moisture absorption of 0.05%, the allowable collision load during a free fall of 600 kg, the dielectric strength of 10.5 kW mm, surface resistivity of 3x10 ¹² ohms and technology simplification environmen spine of its manufacture by injection and cost reduction.

The essence of the utility model

The essence of the utility model is that the strip for installing electrodes on electrolysis baths is a plate made by molding polymeric material polydicyclopentadiene, which is a product of the catalytic metathesis polymerization of dicyclopentadiene using ruthenium Grubbs catalyst.

As a rule, the polymer material contains quartz flour.

Preferably, the specified polymeric material contains an additive thickener BYK-410.

Preferably, the specified polymeric material contains modifying additives from the group: antioxidants, plasticizers, pigments, inorganic fillers.

Preferably, the rail is made of a polymer material by the method of the group: casting into a mold, followed by curing and machining of the finished product.

Characteristics of the utility model.

Thermo- and chemically resistant rail for installing electrodes on electrolysis baths is an elongated part, mainly a straight plate (straight or figured - with grooves) made of polymer material (commercial name - Rutepol ^® ), which is a polydicyclopentadiene - a product of catalytic metathesis polymerization Dicyclopentadiene with the help of Grubbs' ruthenium catalyst, with a filler - quartz flour (Marshalite). Marshalite (powdered quartz) - fine mineral filler, produced on the basis of natural raw materials, contains not less than 98% SiO ₂ .

The metathesis of olefins is a chemical reaction, during which the double bonds of alkenes involved in the reaction redistribute the substituents.

The metathesis polymerization of dicyclopentadiene - dicyclopentadiene with the help of Grubbs catalysts is polymerized to polydicyclopentadiene.

The rail is made of a polymer material by the method of the group: casting into a mold, followed by hardening at normal temperature, and machining the finished solid polymer with filler.

The rail is made of a polymeric material, which contains, for example, a thickener additive BYK-410. Rake may also contain antioxidants and functional additives, which are pigments or pigment pastes.

Thermo - and chemically resistant rail Rutepol ^® is a product of the above composite high-quality polymeric material.

The slats are manufactured according to the drawings by the injection method based on the two-component composition Rutepol ^® TU 2257-002-34485552-2016 (casting into a form with subsequent curing of the polymer product) or from the finished polymer Rutepol ^® TU 2226-001-34485552-2015 by mechanical processing.

 Reiki are used in electrolysis baths as an insulator and support for the installation of electrodes on them.

Composition

Polymer Rutepol ^® TU2246-001-34485552-2015.

Short instructions for making

The working solution prepared from the two-component composition Rutepol ^® (Rutepol ^® ) TU2257-002-34485552-2016, is thoroughly mixed with the filler - quartz flour - in a certain proportion. To prevent stratification of this mixture, BYK-410 thickening agent may be used in the amount of 0.3% by weight of the composition Rutepol ^® .

Rutepol ^® for the manufacture of lath comes in the form of a two-component composition, one of the components of which is a modified solution based on dicyclopentadiene (Component A is a colorless or yellowish liquid with a characteristic odor. The main substance is Dicyclopentadiene, contains antioxidant additives, functional additives, may contain pigments ), and the second is a fine powder of Grubbs catalysts (Component B is a catalyst, is a fine powder pink), which is dissolved in an organic solvent, mainly in the alcohol from the group: phenylethyl alcohol, benzyl alcohol, before mixing with component A.

A filler is added in the amount of 50% of the mixture of components A and B, for example, in the form of quartz flour - marshalite.

The technology is greatly simplified due to the fact that, as a result of the dissolution of the Grubbs catalyst in an organic solvent, mainly alcohol from the group: phenylethyl alcohol, benzyl alcohol, before mixing with component A, components A and B react at room temperature 18-20 ^o C, followed by curing.

The resulting mixture is ready to be poured into a specially prepared form (treated with anti-adhesive composition and hermetically assembled).

The main characteristics of the slats are listed in table 1.

Examples of rail making

Example 1

A national horizontal mold is being prepared for a figured rail with dimensions of 1950x55x35 mm. Take 2 kg of Rutepol ^® mixture, add 6 g of the thickener additive BYK-410 and mix for 30 seconds. Then take 400 mg of dissolved Grubbs' ruthenium catalyst (200 mg / 1000 g), add to the mixture and mix with a mixer for 30 seconds. Then pour into the mixture 2 kg of quartz flour - marshalite (50% of the total mass of the mixture), mix with a mixer until a homogeneous mass and pour it into the mold. The mold is closed on top. After 30-40 minutes the mixture is smoked and polymerized. After cooling, the mold is disassembled and the Rutepol ^® acid-resistant rail is removed. If necessary, the mechanical revision of the rail.

Example 2

A hermetically sealed metal mold with internal dimensions of 1980x105x45 mm is taken and placed vertically. On top there should be a small hole for pouring the mixture. Take a mixture of 10 kg Rutepol ^®, was added 50 g of a yellow pigment (0.5%) and mixed with a mixer until uniform dyeing liquid. Then take 2 g of the dissolved ruthenium Grubbs catalyst (200 mg / 1000 g), add to the mixture and mix with a mixer for 30-40 seconds, and then pour it into the mold through the hole to the top. The hole is closed. After 30-40 minutes an exothermic reaction takes place and the mixture is polymerized. After cooling, solid yellow Rutepol ^{® is} removed from the mold.

Example 3

Take a metal mold with one open side with internal dimensions 1980x105x45 mm and set horizontally. Take a mixture of 7 kg Rutepol ^®, was added 21 g of carbon black (0.3%), was stirred with a mixer until uniform coloring was added 1.4 g dissolved Grubbs ruthenium catalyst, is stirred with a mixer More 30-40 seconds. Immediately after that, 7 kg of quartz flour (50% of the total mass of the mixture) are poured into the mixture and mixed with a mixer until a homogeneous mixture is obtained, then poured into a mold and tightly closed with a lid on top. After 30-40 minutes the mixture is smoked and polymerized. After cooling, solid black Rutepol ^® with two layers is removed from the mold: a low-flammable layer with quartz flour and the 2nd layer completely from Rutepol ^® blend.

To extract the rack form dismantled and gets the finished product. The density of the material is 1.03 - 1.50 g / cm ³ .

Application area

The rail is designed for use in the metallurgical, chemical industry and in electroplating to install electrodes on electrolysis baths, in particular, anodes in baths for galvanizing metal objects.

For electrolysis baths at the moment there are three types of rails - straight and curly (long and short).

1) Rutepol ^® (Rutepol ^® ) straight rake 1945 x 40 ± 1 x 30 ± 1 mm

2) Rute shaped Rutepol ^® (Rutepol ^® ) 760 x 55 ± 1 x 35 ± 1 mm

3) Rute shaped Rutepol ^® (Rutepol ^® ) 1980 x 55 ± 1 x 35 ± 1 mm

The parameters of the medium (electrolyte) in the electrolysis baths with which the rod is used in copper electrolysis workshops are given in table 2.

The surface of the rail is smooth without extraneous inclusions, laminations and cracks. Overall dimensions and weight of the rail should correspond to the values indicated in the drawing for the product.

The material of the Rutepol ^® rails provides the product with proper performance (strength, low thermal and electrical conductivity, resistance in aggressive environments, durability, low flammability). In addition, the product can be made in a wide range of colors.

The rail is made of thermo-acid-resistant material with high physicomechanical properties, resistant to the effects of aggressive environment.

Rake does not pose a danger to life, human health and the environment both during operation and after the end of its service life and must be disposed of in the usual way for household products.

The use of this utility model allows to increase the durability and reliability of the slats during its operation, storage and transportation, as well as simplification of technology, environmental friendliness of its production and cost reduction.

Claims (4)

1. Rail for installing electrodes on electrolysis baths, which is a die-casting plate made of polymer material containing a filler in the form of quartz flour mixed with polydicyclopentadiene, which is a product of the catalytic metathesis polymerization of dicyclopentadiene using ruthenium Grubbs catalyst dissolved in an organic solvent . 2. Rake according to claim 1, characterized in that polydicyclopentadiene is a product of the catalytic metathesis polymerization of dicyclopentadiene using the ruthenium Grubbs catalyst taken in an amount of 200 mg per 1000 g of dicyclopentadiene. 3. Lath according to claim 1 or 2, characterized in that the polymer material contains a filler in the form of quartz flour in the amount of 50% of its mass. 4. The rake according to claim 1 or 2, characterized in that it is made by a casting method into an anti-adhesive treated and hermetically assembled form at a temperature of 18-20 ^° C.