RU2042006C1 - Composition for cardboard making - Google Patents

Abstract

FIELD: paper industry. SUBSTANCE: composition containing fibrous semiproduct, synthetic latex and coagulating agent has additionally phenolformaldehyde resin. Indicated components were taken at the following concentrations, mas. p. fibrous semiproduct 100; synthetic latex 10-20; phenolformaldehyde resin 1.5-10, and coagulating agent 1-2. Source of fibrous semiproduct: cellulose and/or asbestos fiber. Composition is used for cardboard making. EFFECT: enhanced quality of composition. 4 cl, 2 tbl

Description

 The invention relates to pulp and paper production and can be used for the manufacture of cardboard for thermal insulation, cellulosic material, shoeboard of reduced thickness and other compositions using cellulose or asbestos fiber and a latex binder.

A known composition for producing cellulose pulp cardboard, including, by weight. including cellulose-containing raw materials 100, chloroprene latex 40-45, coagulant 2-3, water to a fiber concentration of 2.0-2.5%
The use of a known composition for the manufacture of cellulosic cellulosic material allows to obtain products with good physico-chemical properties, however, the high content of chloroprene latex in the mass leads to a decrease in the hygienic properties of shoes. In addition, the cessation of the supply of chloroprene latex makes this composition inaccessible to the manufacturer.

A known composition for the manufacture of the basics of roofing and waterproofing material, including, by weight. a mixture of cellulose and mineral fibers 70-140, butadiene styrene and butadiene nitrile latex 10-30, a solution of lignosulfonates or sulfanol with a dry matter content of 45-48% 4-6, coagulant 2-4, water to a concentration of 1-1.5% suspension [2]
The disadvantages of the known material is the low strength and non-hygiene of the cardboard due to the low throughput.

Known mass for the manufacture of asbestos paper, containing asbestos fiber, cellulose-containing material, zinc oxide and latex butadiene-carboxyl-containing polymer modified with resorcinol-formaldehyde resin with a low degree of condensation in an amount of 1-10 wt. dry matter latex [3]
The use of the known composition for the manufacture of cardboard can reduce the binder content in the mass, however, it does not allow to obtain the material of the required stiffness and moisture resistance with high strength properties in the dry state.

Closest to the proposed is the mass for the manufacture of abscess board, for example, for a protective coating of thermal insulation, including asbestos, cellulose, synthetic latex and coagulant in the following ratio of components, parts by weight Asbestos 70-80 Sulphate cellulose 20-30 Synthetic latex 15-20 Coagulant 5-6 Lime in terms of CaO 4-% [4]
The disadvantages of the known composition is the high binder content in the mass, the stringent requirements for the quality of the binder, insufficiently good technological properties and lack of hygiene due to the low throughput.

 The purpose of the invention is the production of durable cardboard of the required stiffness with high hygiene indicators, with a reduced content of binders in the pulp while increasing their range.

This goal is achieved in that the pulp for the manufacture of cardboard contains fibrous semi-finished product, synthetic latex and coagulant, characterized in that it additionally contains phenol-formaldehyde resin in the following ratio of components, parts by weight Fibrous semi-finished product 100 Synthetic latex with a dry matter content of 30-48% 10-20 Phenol-formaldehyde resin with a dry matter content of 40% 1.5-10 Coagulant 1.0-2.0
As a fibrous prefabricated product, cellulose and / or abeste fiber is used, as a coagulant, aluminum-ammonium alum or aluminum sulphate.

 In the proposed pulp for the manufacture of cardboard, the following components are used: bleached sulfate pulp according to GOST 16762-82, unbleached sulfate pulp according to GOST 11208-82, chrysotile asbestos 4 and 5 grades according to GOST 12871-83, styrene butadiene latex SCS-65 GP according to GOST 10564- 75, BS-50 according to GOST 15080-77, copolymer of butadiene and vinylidene chloride DVHB-790 according to OST 38.03204-80, butadiene nitrile latex SKN-40 IH according to TU 38.10354-70, BSNK-OK, alum alum according to TU 113-07-04- 89, aluminum sulfate according to GOST 12966-85, phenol-formaldehyde resin SFZh-3066 according to TU 6-05-2005-86.

 PRI me R 1. Spend the dissolution of cellulose and asbestos on the unit, consisting of a hydraulic diluent 2M-1M and grinding in knife mills MKL-1. The prepared fibrous suspension is poured into the mass pool. The mass is diluted with water to a concentration of 1-2 wt. The mixing time of the fiber is 15-20 minutes. After mixing, synthetic binder latex is introduced into the mass in the form of a 5-10% emulsion diluted in water and SFZh-3066 phenol-formaldehyde resin, and after mixing, the coagulant is in the form of an aqueous solution with a concentration of 20-3% g / l. 13 samples of cardboard are made from the resulting mass and tested for physical and mechanical properties.

 The compositions of the masses for the manufacture of cardboard are given in table. 1. Physico-mechanical properties of the resulting cardboard are given in table. 2. The mass for the manufacture of cardboard prototype was obtained in laboratory conditions. The properties are given in table. 2.

 PRI me R s 1, 2, 3, 4, 6, 8 (according to the invention). The resulting material meets the technical specifications TU 17 of the RSFSR 0300844-08-90 "Cellulose insole material" (SCM).

 PRI me R 5 (according to the invention). The resulting material meets the technical specifications TU 17 of the RSFSR 0300844-13-91 “Cardboard shoe thickness” (KPT).

 PRI me R s 7, 9 (according to the invention). The resulting material meets the technical specifications TU 46 16 22-51-91 "Asbolate-protective coating composite material for thermal insulation of pipelines." The above specifications are given in table. 2.

 PRI me R s 10, 11, 12, 13 control.

 As can be seen from the table. 1 and tab. 2 data, cardboard, obtained from the mass of the claimed composition and consisting of a fibrous semi-finished product, which is used, wt.h. cellulose and / or asbestos fiber 100, synthetic latex with a dry matter content of 30-38% 10-20, phenol-formaldehyde resin with a dry matter content of 40% 1.5-10, coagulant 1-2, meets all the requirements for such materials, and the culvert exceeds the performance of the prototype.

 The decrease in the content of synthetic latex in the composition to 9 parts by weight per 100 wt. including fiber or its absence with the claimed content of phenol-formaldehyde resin in the mass (example 10, 13) leads to deterioration of moisture resistance and increase the fragility of the material.

 The decrease in the content of phenol-formaldehyde resin to 1 wt.h. per 100 wt. including fiber with the claimed amount of binder in the mass leads to a sharp decrease in the moisture resistance of the material obtained (example 11). The increase in the content of phenol-formaldehyde resin to 15 wt.h. per 100 parts by weight fiber (example 12) leads to a decrease in moisture resistance and increase the fragility of the cardboard.

Claims (2)

 1. COMPOSITION FOR MANUFACTURE OF PAPERBOARD, including fibrous semi-finished product, synthetic latex and coagulant, characterized in that it additionally contains phenol-formaldehyde resin in the following ratio, wt.h. Fiber Prefabricated 100
Synthetic latex 10 20
Phenol formaldehyde resin 1.5 10.0
Coagulant 1 2
2. The composition according to claim 1, characterized in that as the fibrous prefabricated product it contains cellulose and / or asbestos fiber. 3. The composition according to claim 1, characterized in that it contains synthetic latex with a solids content of 30 48%
4. The composition according to claim 1, characterized in that it contains a phenol-formaldehyde resin with a solids content of 40%

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