SU1551763A1 - Method of manufacturing pressboard for electro-chemical systems - Google Patents

Abstract

This invention relates to the pulp and paper industry and makes it possible to improve the performance properties of cardboard. Asbestos is treated in a roll with 12% hydrogen peroxide for 30 minutes, and hydrogen peroxide is taken for 1 hour of asbestos. Then asbestos is milled in a roll at a 3% concentration to a fiber length of 28-30 dm and diluted in a machine pool. In front of the pressure box, asbestos fiber is glued with latex based on fluorinated monomers in the amount of 4-10% by weight of absolutely dry fiber, cardboard is cast, pressed and dried. 1 tab.

Description

The invention relates to the pulp and paper industry, in particular to the production of cardboard, which will find application as the basis of electrolyte in electrochemical systems.

The purpose of the invention is to improve the performance properties of cardboard.

The method is carried out as follows.

AXO asbestos is treated in a roll with hydrogen peroxide for 30 minutes. Next, asbestos is milled in a roll at 3 / o-th concentration to a fiber length of 28-30 dm, diluted in a machine basin and carried out on an empty mattress with a roller shaft. Before the pressurized chic of the machine, the latex of the brand SKF-26 And in the amount of 4-10% of the weight of absolutely dry fiber is introduced into the carton.

The formation of a sheet of cardboard is made on a format shaft by winding the elementary layers of cardboard to the required thickness. The pressure of the format of the shaft on the canvas of the cardboard is adjusted depending on the required quality indicators. After obtaining the required thickness of cardboard, it is removed from the formatting shaft and the bushing on the sutlip cylinder at 60-70 ° C.

The qualitative characteristics of the resulting cardboard are shown in the table.

SP

SP

"Vj

05

OO

Cardboard but to the prototype, known to Asbestos, treated with 3% HjOj, module 1: 2 (7% latex) AsWest, treated with 12% Hg02, module I: 2 (7 latex) Asbestos. Treated with 29% HgOg, module 1: 2 (77 latex) Asbestos, treated with 1 2% HjOi, module 1: 3 (7% latex) Asbestos card, treated with 12% HgOg with 3% latex GFR-26 And, module 1: 2 Cardboard from asbestos treated with 12% HjOj with 1 5% latex SCF-26 I, module I: 2 Cardboard from asbestos treated with 12%: iO- with 4 latex. I. module 1: 2 Cardboard from asbestos, treated with I2% HjOj with 10% latex SCF-26 I, module I: 2

0.34 20.6 (2.1) 8.3 (0.85)

0.36 36.4 (3.71) 12.7 (1.30)

22.5 (2.3) 8, H (0.9G

0.35

29.4 (3.00) 10.5 (1.071

In the module 1: 2 for 1 part of asbestos they take 2 parts of hydrogen peroxide.

64

351303,013.1 (1.34) 3.44

64351342,924.4 (2.49) 3.80

6533 1582.235.4 (3.66) 2.11

63351512,235.2 (3.59) 2.00

65321532.235; E 3,6P) 2, P9

0.34 20.6 (2.1) 8.3 (0.85) 0.5664381772.2 34.3 (3.50) 2.15

0.36 36.4 (3.71) 12.7 (1.30)

0,69

62201212,435.8 (3.65) 2.08

22.5 (2.3) 8, H (0.9G

0.56

63

33157

2,234,5i), 52) 2,; 7

0.35

29.4 (3.00) 10.5 (1.071

0.58

62

281392; 235.6 (3.6312.13

As can be seen from the table, a decrease in the consumption of hydrogen peroxide (module 1: I) does not ensure the complete wettability of asbestos and such treatment does not give the desired result. An increase in the consumption of hydrogen peroxide (1: 3 module, sample 5 in the table) does not give a further increase in the quality indicators of cardboard, therefore it is not economically feasible. Thus, the optimal peroxide consumption for asbestos treatment with a 1: 2 module.

Asbestos treatment with 3% hydrogen peroxide improves the tensile strength of the cardboard in the wet state, other indicators are at the level of the technical requirements for cardboard.

Treatment of asbestos with 12 and 29% hydrogen peroxide solution yields cardboard with high mechanical strength in a dry and saturated state, however, in order to save hydrogen peroxide, as well as due to the fact that using concentrated hydrogen peroxide, a slight decrease is observed.

Strength in dry and saturated condition, the best option is to handle 12% hydrogen peroxide.

The proposed method makes it possible to obtain cardboard with high mechanical strength, necessary alkaline absorption and swelling, a uniform fine-pore structure and high chemical resistance in alkalis "

Claims (1)

Invention Formula Method of making cardboard for electrochemical systems, including the grinding of asbestos wax, sizing it with latex followed by molding, pressing and drying, characterized in that, c. In order to improve the performance properties of cardboard, before grinding, asbestos fiber is treated with I2% hydrogen peroxide solution, and sizing is carried out with latex based on fluorinated monomers. five