RU2642568C2 - Adhesive composition for manufacturing chipboards and wood products - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: adhesive composition contains components with the following ratio, wt %: binder urea-formaldehyde resin (97.41-98.36), a curing agent of ammonium chloride (0.64 to 1.59), an amorphous modifier of silicon dioxide (0.05-1.00). Silicon dioxide is presented in the form of a powder with nanoporous structure of particles and their specific surface of 120 to 400 m²/g.

EFFECT: increasing the strength of the adhesive composition and reducing the consumption of the modifier.

2 dwg, 1 tbl

Description

The proposed adhesive composition for the manufacture of chipboards and wood products belongs to the class of adhesive compositions obtained on the basis of condensation polymers of aldehydes or ketones, including their derivatives, using modifying inorganic components in the form of fine particles. This adhesive composition is intended for use in the production of structural materials, namely: particle boards, including oriented particle boards, as well as plywood, glued building structures and other wood products.

Known adhesive composition with a nanomodifier for chipboards according to the patent of the Russian Federation No. 2520449 [1], containing a binder based on a thermosetting resin, hardener and modifier, moreover, nanodispersed schungite powder in an amount of 1% to 20% by weight of the binder is used as a modifier.

However, the use of shungite nanodispersed powder as a modifier limits the scope of the adhesive composition [1] due to the technical complexity of obtaining this modifier in an amount sufficient for industrial production. In addition, in this adhesive composition, the reinforcing properties of the main components of schungite are inefficiently used. This is explained by the fact that the main components of shungite are carbon and silicon dioxide [2]. Depending on the ratio of the mass of the modifier and the mass of the resin, the reinforcing properties of one of these components may be so significant compared to the other component that the influence of one of the components can be neglected. Then the less active component will not significantly affect the reinforcing properties of the modifier in the form of nanosized shungite powder, which will cause the inefficiency of using the reinforcing properties of shungite. Thus, depending on the ratio of the mass of the modifier to the mass of the resin, it may be more effective to use the modifier in the form of finely divided silica or carbon powders.

Known adhesive composition according to patent RU 2552410 [3], including a copolymer of methacrylic acid butyl methacrylate, an organic solvent and fumed silica in the form of Aerosil powder [4], and the mass fraction of fumed silica in the adhesive composition is from 1.78 up to 9.90% or from about 2 to 10%. This composition is intended for bonding metal, wood, ceramics and other materials.

However, in this adhesive composition [3], the reinforcing properties of fumed silica are inefficiently used. This is explained by the fact that, depending on the type of materials to be bonded, another ratio of the mass of fumed silica to the mass of the adhesive composition that goes beyond the ratios specified in [3] may be more effective. When developing the proposed adhesive composition, it was assumed that this composition is intended for use in the production of particle boards, including oriented particle boards, as well as plywood and glued building structures made of wood. Thus, we are supposed to improve the technical and economic efficiency of its use as a component of the proposed adhesive composition by narrowing the range of materials to be bonded and reducing the mass fraction of pyrogenic silicon dioxide.

The closest technical and technological solution, selected as an analogue of the proposed adhesive composition, is the adhesive composition and method of its use in the manufacture of plates from sunflower husk according to the application for invention RU 2000121318/13 [5]. This adhesive composition and method of its application are similar to known compositions and methods of their use in the manufacture of particle boards [6], plywood and other wood-based products [7]. The specified method of manufacturing plates [5] includes treating the particles to be bonded with a binder containing urea-formaldehyde resin, ammonium chloride, styrene butadiene methacrylate latex, and Aerosil grade fumed silica in the following ratio, wt. %:

Urea-formaldehyde resin  76.4-93.2 Ammonium chloride  0.8-1.6 Styrene butadiene methacrylate latex  4.0-12.0 Aerosil  2.0-10.0

However, in this adhesive composition [5], the reinforcing properties of fumed silica are inefficiently used. This is explained by the fact that another ratio of the mass of fumed silica to the mass of the adhesive composition that goes downwards beyond the limits specified in [5] may turn out to be more effective. Efficiency is expressed in reducing the consumption of the modifier and in increasing the strength of wood-based materials obtained using the proposed adhesive composition.

The technical result from the use of the proposed adhesive composition is expressed in increasing strength and reducing the consumption of modifier. This technical result is achieved due to the fact that the proposed adhesive composition with a nanoporous modifier for wood chipboards, containing a binder based on a thermosetting resin with a hardener and a modifier, contains amorphous Kovelos silicon dioxide [http: // aerosil. su / dokumentaciya] in the form of powder with particles of the nanoporous structure and their specific surface area of from 120 to 450 m ² / g in an amount of from 0.051 to 1.02% by weight of said individual resin, with the following ratio of components in the adhesive composite tion as a whole, taking into account the hardener additives wt. %:

thermosetting resin from 97.41 to 98.36 hardener (ammonium chloride) from 0.64 to 1.59 amorphous silica with nanoporous particle structure and their specific surface area from 120 to 400 m ² / g from 0.05 to 1.00

The technical result is confirmed by testing samples of particle boards.

Technical implementation of the proposed adhesive composition.

In FIG. 1 shows in graphical form the results of bending tests of samples of particle boards with a thickness of 16 mm, manufactured using the proposed adhesive composition with the addition of amorphous silicon dioxide in the amount, wt. %: 0; 0.125; 0.25; 0.5; 1,0.

In FIG. 2 shows in graphical form the results of tensile tests perpendicular to the plane of the plate of samples of the same plate.

As the basis of the binder in the proposed adhesive composition can be selected urea-formaldehyde resin brand KF-MT (according to the existing designation [6, p. 22]) with a mass fraction of solids in the working solution from 70% to 40%.

As a hardener, an aqueous solution of ammonium chloride (NH ₄ Cl) with a concentration of 20% can be selected. Such a solution is used as a hardener for resins in the production of chipboards [6, p. 23].

Amorphous silicon dioxide with a nanoporous particle structure and a specific surface area of 120 to 400 m ² / g, the Kovelos brand [http://aerosil.su/dokumentaciya], was used as a modifier.

The adhesive composition is prepared by mixing its constituent components. In one embodiment (table 1), 98 parts by weight of resin are poured into the container. Then, with constant stirring and a temperature of approximately 20 °, amorphous silica powder of the Kovelos brand is added in portions [http://aerosil.su/dokumentaciya]. Variants of the adhesive composition are presented in table 1.

After homogenization of the resulting mixture, which takes about 30 minutes, a hardener is added, the resulting composition is mixed and used according to known technology for the manufacture of chipboards [6], plywood [7] or wooden glued structures [8].

The use of the proposed adhesive composition in the production of particle boards consists in processing (so-called gumming) particles of crushed wood with a prepared adhesive composition, forming a carpet, cold pre-pressing, then hot pressing [6].

In FIG. 1 shows in graphical form the results of bending tests of samples of particle boards with a thickness of 16 mm, manufactured using the proposed adhesive composition with the addition of amorphous silicon dioxide in the amount, wt. %: 0; 0.125; 0.25; 0.5; 1,0.

In FIG. 2 shows in graphical form the results of tensile tests perpendicular to the plane of the plate of samples of particle boards with a thickness of 16 mm, made using the proposed adhesive composition with the addition of amorphous silicon dioxide in the amount, wt. %: 0; 0.125; 0.25; 0.5; 1,0.

The density of the sample material is 950 kg / m ³ , which is higher than the generally accepted density for plates with a thickness of 16 mm (680 ÷ 750 kg / m). With a decrease in the density of the material of the plates, their strength decreases [6]. However, the strengthening effect of the new modifier of the adhesive composition on the strength of the samples of plates made using this adhesive composition remains.

It was experimentally established (Fig. 1 and Fig. 2) that a significant increase in strength is observed when the content of amorphous silica additives is in the amount of 0.05% or more. However, the addition of amorphous silicon dioxide in an amount of more than 1% does not increase the strength of the plate.

Ammonium chloride as a hardener is effective when it is contained in the adhesive composition in an amount of 0.64 ÷ 1.60 [6].

Thus, it is justified to obtain the technical result formulated above.

The functioning of the proposed adhesive composition. The functioning of the material made using the proposed composition is that when the resin dissolved in water is mixed, the particles of nanoporous amorphous silicon dioxide are distributed throughout the composition and, due to the large specific surface area of these particles, they form a spatial network structure that is fixed by hot pressing - particle board with a temperature of not more than 190 ° C. Distributed by the volume of the adhesive composition, and together with it and by the volume of the particleboard, nanosized particles of amorphous silicon dioxide resist the formation of foci of destruction of the composite material based on wood, which increases the strength of the material under operational influences in the form of external and internal forces. In particular, it was experimentally established that the strength is significantly increased both when the plate is bent (Fig. 1), and when tensile perpendicular to the plane of the plate (Fig. 2).

An increase in tensile strength perpendicular to the plane of the plate (Fig. 2) means that the resistance of the material to internal forces increases when the plate swells under the influence of moisture. These internal forces cause an increase in the thickness of the plate during its operation, however, the modification of a binder with amorphous silicon dioxide with a large specific surface increases the resistance to these forces. As a result, the functioning of the proposed technical solution is accompanied by a decrease in the influence of moisture on the change in the thickness of the plate due to swelling, which characterizes the plate as more moisture resistant, in addition to the above strength characteristics of the plate (Fig. 1 and Fig. 2). This confirms the achievement of the claimed technical result.

Bibliography

1. Patent for invention RU 2520449. IPC C09J 161/00 (2006.01), B82B 3/00 (2006.01). Adhesive composition with a nanomodifier for chipboards. Published: June 27, 2014.

2. Rozhkova N.N. Nanocarbon of schungite // Petrozavodsk: Karelian Research Center of the Russian Academy of Sciences, 2011.100 p.

3. Patent for the invention RU 2552410. IPC C09J 133/00 (2006.01), C09J 133/10 (2006.01), C09J 183/02 (2006.01), C09J 183/05 (2006.01). Glue composition. Published: June 10, 2015.

4. Aerosil. http://www.silica.su/ru/perechen-produkczii/834-aerosil.html.

5. Application for invention 2000121318/13. IPC B27N 3/02, C08L 97/0. A method of manufacturing plates from sunflower husks. Published: July 27, 2002.

6. Otlev I.A., Shteinberg Ts.B. Handbook of chipboard // Moscow: Publishing House "Forest Industry". 1983. 240 p.

7. Volkov A.V. Reference plywood // St. Petersburg. Polytechnic University Publishing House. 2010.486 s.

8. STO 36554501-003-2006. The bearing wooden glued constructions. General technical requirements. Federal State Unitary Enterprise "Research Center" Construction ". Moscow. 2006. http://snipov.net/database/c_3384165195_doc_4293849770.html. Date of treatment December 27, 2015.

Claims (4)

An adhesive composition for the manufacture of chipboards and wood products, containing a binder based on urea-formaldehyde resin with a hardener in the form of ammonium chloride and a modifier, characterized in that amorphous silicon dioxide is used as a modifier in the form of a powder with a nanoporous structure of particles and their specific surface from 120 to 400 m ² / g, in the following ratio of components in the adhesive composition, wt. %: urea-formaldehyde resin: 97.41 to 98.36; ammonium chloride: from 0.64 to 1.59; amorphous silicon dioxide with a nanoporous particle structure and a specific surface area of 120 ÷ 400 m ² / g: from 0.05 to 1.00 inclusive.

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