UA132629U - METHOD OF MANUFACTURE OF SELECTED HYDRAULIC PAPER OF SANITARY AND HYGIENIC PURPOSE OF MOLLED FIBERS OF SULPHATE WHOLESALE OF DIAGENOSIS AND EYELOPE - Google Patents

Abstract

A method of manufacturing a absorbent paper, which is a porous fibrous material, includes the processes of breaking and grinding of pulp of bleached sulphate of deciduous and deciduous wood, obtaining a fibrous suspension, the introduction of a reinforcing substance, the formation of paper cloth, baking cloth, its crepe pulp from coniferous wood is ground to a grinding degree of 29-36 ° SH (fraction I), as a sulfate bleached pulp from deciduous wood use a mixture of fibers of sulfate bleached pulp from der fault eucalyptus fibers and bleached sulphate pulp of aspen wood by the ratio of the masses. % 55 and 45, respectively, which are ground together to a grinding degree of 17-23 ° C (fraction II); the obtained fractions of cellulose fiber are mixed with each other, and as a reinforcing substance to the fibrous suspension is injected polyvinyl alcohol fiber by weight of 0.22-0.28% of the absolutely dry fiber.

Description

The useful model belongs to the pulp and paper industry and can be used during the production of moisture-resistant paper with increased absorption capacity for various purposes.

The most effectively useful model can be used for the production of paper intended for the production of sanitary-hygienic products: napkins, pads, sheets, paper towels, etc., absorbent products in appliances and household appliances.

This useful model claims a method of manufacturing absorbent paper, which is a porous fibrous material, including the processes of breaking and grinding sulfate-bleached cellulose from coniferous and deciduous wood, with the production of a fibrous suspension, the introduction of a strengthening substance into it, the formation of a paper web, its creping and drying, and sulfate bleached cellulose fibers from coniferous wood are ground to a grinding degree of 29-36"SH (fraction I), as sulfate bleached cellulose from deciduous wood, a mixture of sulfate bleached cellulose fibers from eucalyptus wood and sulfate bleached cellulose fibers from aspen wood is used in the ratio, mass 9o 55 and 45, respectively, which is ground together to a grinding degree of 17-23" SR (fraction II); the resulting cellulose fiber fractions are mixed with each other before forming the paper web according to the ratio, wt. 9o: bleached sulfate cellulose 52-58 from coniferous wood, a mixture of sulfate bleached cellulose Kk from eucalyptus wood and sulfate 42-48, bleached cellulose from aspen wood, and polyvinyl alcohol fiber is introduced into the fibrous suspension as a strengthening agent at a mass fraction of 0.22-0.28 95 from completely dry fiber.

The application for a utility model relates to a method of producing moisture-resistant absorbent paper with increased mechanical strength and absorbent capacity, namely, the preparation of paper pulp, which includes grinding sulfate bleached pulp from coniferous wood, a mixture of cellulose from eucalyptus wood and cellulose from aspen wood with obtaining a fibrous suspension by introducing into its strengthening additive, forming a paper web from it in a known way on the grid of a paper machine, its crepe and drying.

The goal of the work is to achieve increased absorption (suction) capacity and looseness of paper, the level of mechanical strength, including in a wet state.

The mechanical strength of the paper was evaluated by the indicators of destructive force in dry and wet conditions and wet strength, absorption capacity - by the indicator of capillary absorption in two directions on average for 10 min, looseness was determined as

Z is the inverse of the paper density.

The disadvantage of absorbent paper for various purposes is that the paper or its products, when slightly wetted and crumpled in the hand, usually crumble and turn into a dense wet mass. That is, products made of such paper have a low level of strength under the slight influence of moisture and low elasticity, which is undesirable for products of this type, intended for wiping and absorbing liquids. As soon as they are saturated with liquid, they become useless (unnecessary), that is, unsuitable for further use.

The basis of the useful model is the task of creating an improved paper canvas, with properties close to fabric or a towel, with a high absorbency of the structure and low density, which would maintain integrity under the influence of moisture and behave like a sponge, due to selection and combination. cellulose fibers based on coniferous wood, a mixture of cellulose fibers from eucalyptus wood and cellulose from aspen wood, methods of grinding and introducing a strengthening additive to the paper mass, appropriate preparation of cellulose fibers for forming the structure and properties of paper.

Thus, absorbent paper obtained by the proposed method must have the necessary set of properties - be characterized by sufficient absorbent capacity, softness and looseness, as well as appropriate mechanical strength, including in a wet state, necessary to ensure the manufacturability of its processing into products, goods, etc. and conditions of their use and operation. In addition, products made of such paper must have an attractive appearance, that is, be characterized by an appropriate whiteness index.

The strength or physico-mechanical properties of absorbent paper are usually determined by the structure of the paper web, the features of which depend on the capillary-porous structure of the paper. Paper is characterized by anisotropy (unevenness), the distribution, orientation and interaction of all components that create a structure in the volume of a paper sheet, which is related to the peculiarities of the technological process of cellulose fiber preparation, and depends on the type of cellulose, the degree of grinding, the length and thickness of the fibers , the appropriate ratio of the components of the paper mass, the introduction of a binding substance, the conditions for the formation of the paper web, and others.

The useful model offers an improved method of making paper for various purposes with increased indicators of absorbency, fluffiness and mechanical strength, including in a wet state. In particular, the useful model concerns the method of obtaining the composition and the ratio of components in it, which, under the appropriate conditions of grinding and preparation of the cellulose fiber of the paper pulp, improve the absorption capacity, looseness and mechanical strength of the paper made from it.

The thickness of the paper is the inverse of the density, it shows how much volume in cm3 occupies 1 g of paper and is determined as the result of the ratio of its thickness to the mass with an area of 1 m3, in cm3 /g. Fluffness also characterizes the degree of compression of paper, its softness and is an important property of absorbent types of paper for a wide range of applications.

Loose paper has a more "loose" macroporous structure, which is created due to the spaces between the fibers of different types of cellulose and sizes in terms of length and width, which are filled with air and moisture. Loose paper with macropores will intensively absorb liquid components, such as moisture, and will also be easily compressed. In particular, the useful model refers to the composition and ratio of components in it, which, under the appropriate conditions of grinding and preparation of cellulose fiber (paper pulp), improve the absorption capacity, looseness and mechanical strength of the paper made from it, including in a wet state.

Therefore, for the production of absorbent paper with the necessary set of consumer properties, we tried to establish a balance between the amount of long-fiber fraction used to create a structural framework and the amount of short-fiber fraction used as a filler. We set the optimal ratio to be 52-58 95 of the long-fiber fraction of a low degree of grinding (fine grinding) and 42-48 95 of the short-fiber fraction.

According to this, the utility model relates to a method of obtaining fibrous paper pulp,

From which includes the selection of fibrous raw materials - sulfate bleached cellulose from coniferous wood, ground to a grinding degree of 29-36"SH, and a mixture of sulfate bleached cellulose from eucalyptus wood and sulfate bleached cellulose from aspen wood in the ratio, mass 95 - 55-45, respectively, jointly ground to 17-23"SR for determining the effective ratio of compositions based on sulfate-bleached cellulose from coniferous wood and from a mixture of sulfate-bleached cellulose from eucalyptus wood and cellulose from aspen, with the preparation of a fibrous suspension and the introduction of a strengthening substance into it.

On the other hand, a useful model concerns the production of thin paper with increased mechanical strength, absorbency and looseness - important indicators for this type of paper, which includes the following stages: - grinding, preparation and production of two types of paper pulp: based on sulfate bleached pulp from coniferous wood and mixtures of sulphate bleached cellulose from eucalyptus wood and cellulose from aspen wood; - obtaining a composition of fibrous paper mass based on sulfated bleached cellulose from coniferous wood and a mixture of sulfated bleached cellulose from eucalyptus and aspen wood in their appropriate ratio; - introducing a strengthening additive to the composition of paper pulp; - obtaining a fibrous suspension of paper pulp based on a mixture of the obtained composition; - pouring out of this suspension paper cloth.

The useful model is based on the task of increasing its operational properties by achieving a uniform structure of paper for its purpose - mechanical strength, including in a wet state, absorbency, whiteness and looseness - quality indicators that ARE MAIN FOR absorbent types of paper with a reduced mass of 1 m ".

It is known that to ensure increased indicators of absorbency and mechanical strength, sulfate bleached cellulose from coniferous wood and sulfate bleached cellulose from hardwood wood are usually used, based on the following considerations: sulfate cellulose fibers are more flexible, shorten to a lesser extent during grinding, and fibrillate at the same time , which contributes to obtaining a closed paper web. The combination of long and strong cellulose fibers from coniferous wood in a composition with short and wider cellulose fibers from hardwood species makes it possible to increase the absorbent capacity of the paper and therefore its mechanical strength.

It should be noted that in the materials related to the use of leafy cellulose fibers in the composition of paper, they mean cellulose obtained on the basis of aspen wood or a mixture of aspen and birch (GOST 14940 Cellulose sulfate bleached from leafy wood (aspen). Technical conditions).

Recently, bleached sulfate cellulose from eucalyptus wood has been widely used. Eucalyptus pulp is a relatively new fibrous semi-finished product with a-cellulose content of 82 95 whiteness - 9095, which, as shown by our previous additional studies, makes it possible to increase the looseness, softness, porosity and opacity of paper, improve the process of paper formation, and also increase its whiteness, providing an attractive appearance to its products.

Eucalyptus fibers are shorter than birch and beech fibers and much thinner than them, the linear density of the fiber is only 60 95 of the index of aspen and birch fibers and 40 95 of beech fibers, which indicates that 1 g of eucalyptus cellulose contains twice as many fibers as birch and in Many times more than beech trees. In addition, eucalyptus cellulose fibers are characterized by greater flexibility and plasticity, which is characterized by the ratio of fiber length to its width. Fibers of aspen cellulose are similar in length to eucalyptus, but are twice as thick and wide, and therefore less flexible.

Due to the specific morphological structure and structure, cellulose from eucalyptus wood has, as our research has shown, along with a high ability to form a uniform paper sheet, a combination of high strength, fluffiness and light impermeability.

As the results of our research show, cellulose from eucalyptus wood is an exceptionally high-quality fibrous semi-finished product with an optimal combination of technical properties for use in the production of highly absorbent (highly absorbent) and filter types of paper with its content up to 42-48 95 in the fiber composition of these types of paper.

Aspen pulp has sufficient mechanical strength, but its whiteness is low and does not exceed 80-85,905, and the increased content of the hemicellulose fraction and the less favorable morphological structure of this pulp limit the possibility and its content of using it in the composition of absorbent paper. This cellulose quickly loses its absorbent capacity and porosity in the process of grinding, limiting the possibility of increasing the strength and fluffiness of the paper.

This can be explained by the fact that the high capacity for hydration (addition of water and swelling) in the process of grinding cellulose from aspen wood (OB-1 brand) with a-cellulose content - 71-74 95 leads to a rapid loss of absorbent properties and porosity with an increase degree of grinding. This, in our opinion, is primarily due to its high content of stable pentosans, as well as the presence of degradation products (oxycellulose), which accumulate as a result of the harsh bleaching conditions of cellulose. It also reduces both whiteness and its stability under various temperature influences. Therefore, in our opinion, it is important to determine the conditions for grinding cellulose from aspen wood and choose a composition based on it.

The main purpose of grinding short-fiber types of cellulose from eucalyptus and aspen wood species for the production of absorbent paper for various purposes is to increase the plasticity of the fibers for the development and ensuring the strength properties of the fibrous semi-finished product. We carried out the grinding of these types of cellulose under mild conditions, that is, with minor additives on the surfaces of the grinding set. The final degree of grinding was chosen by us depending on the properties of cellulose (the ability to retain absorbent properties during grinding), the type and mass of paper with an area of 1 m.

During separate grinding, coniferous pulp was ground to a higher degree of grinding of 29-36"SH, while a mixture of cellulose from eucalyptus and aspen wood was ground to 17-23"SH under joint grinding. The content of coniferous bleached sulfate cellulose and a mixture of cellulose from eucalyptus wood and cellulose from aspen wood is 52-58 and 42-48 by weight, respectively, 95.

Eucalyptus sulfate pulp has a lower fiber strength than softwood pulp because its fibers are shorter and the individual fiber strength in the paper is lower. In addition, the composition of cellulose fibers from eucalyptus and aspen contains a significant number of wide and short thin-walled vessels with a large number of pores and capillaries. Therefore, the use of eucalyptus pulp and aspen pulp in the appropriate ratio should contribute to obtaining a paper web (paper) with increased capillary absorption capacity, which is an important consumer and operational property of this paper and its products.

The introduction of cellulose fibers from eucalyptus and cellulose from aspen at a low degree of grinding allows to obtain paper with a uniform and closed structure, increased porosity, looseness and absorption capacity, but such paper has low mechanical strength. Obtaining paper with high absorption capacity at a sufficiently high level of mechanical strength is achieved by using the correct ratio and combining the properties of short cellulose fibers from eucalyptus and aspen wood with long-fiber cellulose fibers from coniferous wood.

In recent decades, considerable attention has been paid to the development of special substances, chemical compounds and materials to give paper or board strength in both dry and wet conditions. Polyvinyl alcohol fiber was obtained as a result of scientific and research work, which is used to increase the strength of paper.

Polyvinyl alcohol fiber is a synthetic fiber, a product of alkaline saponification of polyvinyl acetate, characterized by high indicators of relative breaking load, resistance to light and aging, relative elongation, hygroscopicity, resistance to the action of acids, alkalis and organic solvents, preservation of initial strength in a wet state.

A known method of producing crepe paper, which is described in Ukrainian patent 29561 cl. ran 27/00, 021H 17/33 publ. 11/15/2000 Bull. Meb, according to which to increase mechanical strength and capillary absorption, a creping composition based on polyamide resin modified with epichlorohydrin, vegetable oil, the product of the interaction of potassium butylate and propylene oxide is used.

However, it should be noted that the proposed method of improving mechanical strength and absorption capacity is complex in terms of its technological implementation, causes difficulties during drying of the paper web (formation of sticky spots on the surface of the drying cylinder) and during creping, which leads to uneven properties along the width paper In addition, this technology leads to an increase in the cost of paper produced using it.

In another patent WO 2432427 C2 Method of manufacturing multilayer fibrous material obul. 10/27/2011, Byul Me30. The method provides for the production of multilayer cardboard, mainly for the packaging industry, using long- and short-fiber cellulose fibers. To obtain which, the process of fractionation of the fibrous mass and its separation into fractions by size is used. The purpose of this useful model is to increase the mechanical performance of cardboard and maximize the use of pulp from hardwood species.

In this work, short-fibrous cellulose from eucalyptus wood, cellulose from birch wood, acacia wood, or their mixtures from any two types of wood are used.

Also known is the invention of WO 2266139 C2 "Distribution layer with improved transfer of liquid to the retaining layer" on a fibrous material with two or more layers, which has an absorbent layer, which contains a refined mixture of cross-linked cellulose fibers and non-cross-linked cellulose fibers in the ratio of 85 95 and 15 95, respectively and designed to absorb liquid. Such a layer has a mass of 1 m: from 90 to 180 g. In one of the variants of the absorbent layer, up to 8 95 of eucalyptus cellulose, 7 956 of the mass of southern pine fibers and 85 95 of the mass of cross-linked cellulose fibers are introduced into the composition. Cross-linked cellulose fibers are fibers with chemical crosslinks between the fibers.

In these patents, eucalyptus cellulose fibers are used in layered types of cardboard and materials to improve their mechanical strength and absorbent capacity. However, these materials have a high thickness and mass per 1 m area, and the content of eucalyptus cellulose fibers in the absorbent layer is 8 95.

As a close analogue, we chose the well-known absorbent paper with increased mechanical strength and fluffiness (utility model patent Mo 75427 dated 26.11.2012), in which obtaining paper with increased indicators of absorbent capacity, mechanical strength and fluffiness is solved by using a composition based on bleached cellulose, which contains a mixture of sulfite and sulfate cellulose from softwood in a ratio of 60:40, respectively, and cellulose fibers from hardwood.

For simultaneous grinding of sulfate bleached pulp from coniferous wood and sulfite bleached cellulose from coniferous wood in the ratio, wt. 905: 40:60, respectively, fibers with a length of 1.9-2.1 mm (fraction I) were obtained, and sulfate bleached cellulose from deciduous wood obtained fibers with a length of 0.8-1.1 mm (fraction II). Fibrous masses (paper masses) obtained on the basis of sulfate and sulfite bleached pulp from coniferous wood and sulfate bleached cellulose from hardwood wood were mixed in the appropriate ratio, and a paper web was poured from the obtained composition in the usual way.

The disadvantage of this useful model is the difficulty in providing and controlling the size of cellulose fibers of sulfate and sulfite types of pulp from softwood and sulfate from hardwood, which usually leads to an increase in the cost of paper production and the price of the finished product.

It is known that materials based on cellulose fibers have insufficient initial (natural) moisture resistance, therefore, to increase it, binders are introduced into the composition, which contribute to their binding and gluing of fibers together.

Well-known paper for sanitary and household purposes, made with such a ratio of fibrous components, wt. 95: softwood pulp (76.8), hardwood bleached sulfate (23.2). During the production of the well-known paper, polyamide resin modified with epichlorohydrin was added to the composition at the rate of 1-2 kg per 1 ton of completely dry fiber. It is also known that such paper contains fibrous components after joint grinding to a grinding degree of 23-25" ShR (V.A. Horbushyn. Proizvodstvo sanitarno-bnitovykh vidov bapuy. - M.: Lesnaya promyishlennost. - 1986.).

We took the mentioned paper as a prototype, as it is the closest in purpose and technical essence. In the paper according to the prototype, the content of leafy cellulose is insignificant, only 23.2 wt. 95, and the degree of grinding of the cellulose composition is 23-25"SHR. The paper made according to the prototype is characterized by increased mechanical strength, but its absorption capacity is insignificant, since it contains a small amount of leafy cellulose, the looseness of such paper is also low.

And therefore, in order to reduce the negative impact of the mentioned shortcomings, we proposed a composition based on sulfate bleached cellulose from coniferous wood and a mixture of sulfate bleached cellulose from eucalyptus wood and cellulose from aspen wood, their ratio, and also proposed separate grinding of sulfate bleached cellulose from coniferous wood and separate mixtures of sulfate bleached cellulose from eucalyptus wood and cellulose from aspen wood to obtain different lengths of fibers, which is important for obtaining a macroporous structure and ensures a high level of absorbency, fluffiness and mechanical strength of the paper made from these fibers.

A useful model is illustrated by the following examples. Paper samples according to the useful model were made as follows: fibers of sulfated bleached cellulose from coniferous wood were ground to a grinding degree of 29-36"SH (fraction I), a mixture of cellulose fibers from eucalyptus wood and cellulose from aspen wood in a mass ratio of 90o: 55 and 45, respectively, were ground together to a grinding degree of 17-23" SR (fraction II); obtained cellulose fractions

The fibers were mixed together according to the ratio, wt. In: fraction I: fraction 1I-52-58: 42-48, respectively. Polyvinyl alcohol fiber (PVA) was added to the fibrous suspension as a strengthening agent at a mass fraction of 0.22-0.28 95 of the completely dry fiber.

From the obtained paper mass by a known method (formation of the paper web, its crepe to the degree of crepe 9 95 and drying), samples of paper with an area mass of 1 m 32 g were made, which were tested for density, mechanical strength (destructive force in the machine direction in dry and wet conditions ), moisture resistance, capillary absorption on average in two directions for 10 min and looseness. Also, in the process of research, the whiteness index was controlled, which determines the aesthetic properties of finished paper and products made from it.

Example 1. Sulfate cellulose from coniferous wood was ground to 36"SH (fraction I), a mixture of fibers of sulfate leafy cellulose from eucalyptus and cellulose from aspen - to a grinding degree of 17"SH (fraction II). The obtained fractions were mixed together according to the ratio, wt. 9o: fraction I: fraction 1I-52:48. PVA was added to the fibrous suspension at a mass fraction of 0.22 95 of completely dry fiber.

Example 2. Sulfate cellulose from coniferous wood was ground to 34"SR (fraction I), a mixture of sulfate leaf cellulose fibers from eucalyptus and aspen - to a grinding degree of 19"SR (fraction I). The obtained fractions were mixed together according to the ratio, wt. 95: faction

I fraction 1I-54:46. PVA was added to the fibrous suspension at a mass fraction of 0.24 965 of completely dry fiber.

Example 3. Sulfate cellulose from coniferous wood was ground to 32"SH (fraction I), a mixture of sulfate leaf cellulose fibers from eucalyptus and aspen - to a degree of grinding of 21"SH (fraction II). The obtained fractions were mixed together according to the ratio, wt. Us: faction

I fraction 1I-56:44. PVA was added to the fibrous suspension at a mass fraction of 0.26 95 of completely dry fiber.

Example 4. Sulfate cellulose from coniferous wood was ground to 29"SR (fraction I), a mixture of sulfate leaf cellulose fibers from eucalyptus and aspen - to a grinding degree of 23"SR (fraction II). The obtained fractions were mixed together according to the ratio, wt. Us: faction

I fraction 1I-58:42. PVA was added to the fibrous suspension at a mass fraction of 0.28 95 of completely dry fiber.

Example 5. Sulfate cellulose from coniferous wood was ground to 29"SR (fraction I), a mixture of sulfate leaf cellulose fibers from eucalyptus and aspen - to a grinding degree of 23"SR (fraction II). The obtained fractions were mixed together according to the ratio, wt. Us: faction

I fraction 1I-60:40. PVA was added to the fibrous suspension at a mass fraction of 0.28 95 of completely dry fiber.

Example 6 (analogue). Paper was made from a fibrous composition containing sulfate bleached cellulose from coniferous wood and sulfate bleached cellulose from hardwood (CLD) in the ratio, wt.bo 76.8-23.2, respectively, for joint grinding up to 24" SH. To the obtained composition of paper aminoepichlorohydrin resin (PAH) was added to the mass at the rate of 1.5 kg/t of completely dry fiber. From the obtained paper mass, paper samples weighing 32 g/m were produced in a known way, similarly and according to the application: and creped to the degree of crepe 9 95.

The obtained samples according to the useful model (examples 1-5) and analogue (b) were tested under the same conditions, and the test results are shown in the table. swarm composition of paper The value of the indicators of paper mass, mass. d Mass fraction --

Variant |(C sitna Mixture of polyvinyl- effort Kapi. e (example) not, alcohol fibers, 2. machine Moist-absorption I s. cellulose cellulose fiber, 95 from Mass 1 ility, direction, H strength for two Fluffness, Whiteness, with conifer from the wood of a.s.v. MU, g g/cm of paper, 95 directions, strips of dry eucalyptus wood |rolog MM condition condition 1 2 HER with | 4 | 5 | 6 | 7 | 8 | 9 | o | mch | volume: 1 1 52 | 48 | 022 | 319 | 0252 | 54 | 036 | 66 | 34 | 397 | 85 from | 56 | 44 | 026 | 320 | 0253 | 62 | 061 | 98 | 36 | 395 | 85 5 | 60 | 40 | 028 | 320 | 0254 | bu | 068 | 101 | 37 | 393 | 85 women | tv ee pat | ev | ayu | ve| syu ve | 2 | zv | in

The offered paper is characterized by sufficiently high strength in both dry and wet conditions, with a reduced weight of 1 mg of paper, which is an undoubted advantage in the production of sanitary-hygienic products or other materials, especially multilayer ones.

The reduced mass of 1 m2 of paper makes it possible to manufacture products and materials with several layers and precisely due to this, to increase their softness and strength properties under various influences, conditions of use and a significant increase in absorption capacity.

As evidenced by the results of the conducted research, the paper samples produced in accordance with the application for a utility model are characterized by a high level of mechanical strength and moisture resistance, absorbency, and fluffiness, which, in our opinion, is ensured by the optimal choice of fiber composition from cellulose fibers of sulfated bleached cellulose from coniferous wood and a mixture of sulfate bleached cellulose from eucalyptus wood and cellulose from aspen wood and polyvinyl alcohol fiber, which contributes to the formation of the necessary macroporous structure of the paper made from them. The obtained macroporous structure of the paper according to the application

Zo ensures the achievement of high fluffiness, which is also an indirect characteristic of important indicators of absorbent types of paper, namely: air permeability, absorbent capacity, and the presence in the composition of long fibers of sulfate bleached cellulose from coniferous wood and polyvinyl alcohol fiber makes it possible to sufficiently increase and ensure the mechanical strength of the paper high level, including its moisture resistance.

At the same time, it should be noted that the use of bleached sulfate pulp above 58 95 does not lead to an improvement in the quality indicators of the developed paper, leads to an increase in its cost price, and, accordingly, is impractical.

Paper made by analogy, using a mixture of sulfate cellulose from coniferous and traditional hardwoods (birch, beech, aspen), also has a sufficiently high level of mechanical strength and moisture resistance, but it is stiffer and less elastic, as evidenced by the reduced level of indicators looseness (softness) and absorbency. This is important for absorbent types of paper and products made from them, and does not provide, as our research has shown, a significant increase in absorbency and fluffiness.

The best results of the studied characteristics of the paper according to the application are achieved with a relatively low content of cellulose fibers from coniferous wood (up to 60 95), which have a higher value compared to other cellulose fibers in the composition, and accordingly, this (c;

will help reduce the cost of absorbent paper with a high complex of such properties as capillary absorption, looseness and mechanical strength.

Paper and paper products can be used without breaking down when wetting and crumpling when wet or to remove residual moisture, for example, or dirt from various surfaces.

Claims (1)

USEFUL MODEL FORMULA The method of manufacturing absorbent paper, which is a porous fibrous material, which includes the processes of breaking and grinding sulfate-bleached cellulose from coniferous and deciduous wood, with the production of a fibrous suspension, the introduction of a strengthening substance into it, the formation of a paper web, its creping and drying, which differs in that the fibers of sulfate bleached cellulose from coniferous wood are ground to a degree of grinding 29- 36"SR (fraction I), as sulfate-bleached cellulose from deciduous wood, a mixture of sulfate-bleached cellulose fibers from eucalyptus wood and sulfate-bleached cellulose fibers from aspen wood is used in the ratio, wt. 9, 55 and 45, respectively, which is ground together to a grinding degree of 17 -23"SR (fraction II); the resulting cellulose fiber fractions are mixed with each other before forming the paper web according to the ratio, wt. 9 o'clock: sulfate bleached cellulose from coniferous wood 52-58 a mixture of sulfate bleached cellulose from eucalyptus wood and sulfate bleached cellulose from aspen wood 42-48, and as a strengthening agent, polyvinyl alcohol fiber is introduced into the fibrous suspension at a mass fraction of 0.22-0.28 95 of the completely dry fiber.