SU973572A1 - Composition - Google Patents

Description

(54) COMPOSITION

This invention relates to polyvinyl acetate dispersion based compositions and can be used to prepare adhesives, paints, binders for fibrous and non-fibrous absorbent materials, including mineral or. glass wool.

Known adhesive composition: based on a polyvinyl acetate dispersion containing 1-5% triaxial chromium 1.

However, this composition has low strength characteristics and moisture resistance.

Also known is a composition containing a copolymer of vinyl chloride with vinyl acetate and an aluminum-chromophosphate bond 2,

However, this composition does not have moisture resistance, and also has low strength properties.

A known composition containing 50-67% by weight of a polyvinyl acetate dispersion and 33-50% by weight of a phenol-formaldehyde resin C 3.

However, this composition after curing has low strength and moisture resistance.

Closest to the present invention is an adhesive composition comprising a polyvinyl acetate dispersion of 45-55% concentration and a chromium-containing additive 4.

However, this composition has low strength properties and low moisture resistance.

The purpose of the invention is to increase the strength properties and moisture resistance of the composition.

ten

The goal is achieved by the fact that the composition, comprising the 4555% polyvinyl acetate dispersion and the chromium-containing additive, contains alum- num as the chromium-containing additive.

15 mochromophosphate binder in the following ratio of dry matter components, wt%:.

45-55% polyvinyl acetate

20

dispersion 90-97

Alumochromophosphate bond3-10

- The use of an alum-chromophosphate binder as a modifying agent

25 additives that increase the strength and moisture resistance of the cured composition based on polyvinyl acetate dispersion, possibly due to its introduction into concentrated polyvinyl acetate

30 dispersion in the form of 10-20% aqueous

the solution with constant stirring and the indicated ratios of the components. Only under these conditions, the blends in the specified ratio of components are obtained. A stable aqueous dispersion of the proposed composition is obtained, which makes it possible to obtain various materials (films, coatings, adhesives) that have, in comparison with the known, significantly increased strength and moisture resistance and are not inferior to them.

To prepare the proposed binder, a polyvinyl acetylene plasticized dispersion of 45–55% concentration of mark DB 48 / 4H according to GOST 18992–72, an aluminum-chromophosphate binder (aluminum-chromophosphate binder), which is a 47-55% green aqueous solution, are used. acid phosphate salts of aluminum and trivalent chromium (TU 6-18-166-78).

An aluminum chromium phosphate bond of the following composition is used:

The prepared composition can be used as adhesives, adhesives, film formers and various impregnating compositions used for fibrous (cardboard, wood, asbestos-cement boards, mineral wool or glass wool products) and non-fibrous absorbent (concrete, plaster, brick) materials, i.e. in the building industry, in the furniture and woodworking industries, as well as for impregnating fiberglass, as it has better adhesive properties than the known composition.

the proportion of aluminum in terms of 6.5–9%, mass fraction of chromium in terms of 3.5–4.5%, mass fraction of phosphato in terms of PjOj, in the range of 35–39%, mass fraction sulfates in terms of ZOD,% not more than 0.5%, mass fraction of formaldehyde not more than 0.2%.

Example. To prepare 100 kg of a composition containing 97% by weight of a polyvinyl acetate dispersion and 3% by weight of an aluminum-chromophosphate binder (in terms of dry matter), 92.8 kg of 45-55% polyvinylacetate dispersion are loaded into a mixer or stirred tank at room temperature , then, with constant stirring, 7.2 kg of a 20% aqueous solution of an aluminum-chromophosphate binder are introduced and the resulting mixture is further stirred for 510 minutes.

The compositions of the known and proposed compositions are given in table. one. ,

Table 1

Used for this purpose, based on urea formaldehyde resin and PVAD.

To determine and compare the strength properties, as well as the moisture and water resistance of hardened known and proposed compositions, laboratory samples are made based on an inert filler — quartz sand (GOST 6159-70) and the composition under test (the content of the last 3 wt.% Of the total dry weight substance). After thermograding of the samples at 180 ° C for 5–25 min, their ultimate flexural strength is determined before and after exposure to conditions of high humidity (98 ± 2%) and in water.

The proposed composition of the composition:

The moisture resistance of the cured composition is characterized.

The water resistance of the cured composition is characterized.

From the table. 2 research results show that the proposed composition after curing has a higher strength and moisture resistance compared to the known ones and is not inferior in water resistance.

The test results of the cured properties of the proposed and

Flexural strength of samples, kgf / cm

Initial

After aging 7 days at 98 + 2% relative humidity

After holding the samples for 1 day in water

The results of testing the strength properties of the cured proposed and known compositions are given in Table 2.

Table 2

known compositions are given in table 35. 3 and 4, and in table. 3 shows reference examples of comparison; with a com- position of 1, and in Table. 4 A control example of the comparison of compositions based on a copolymer of vinyl chloride 40 Reed with vinyl acetate and LCPS and a composition based on polyvinyl acetate dispersions and AHFS.

Table 3

119.7

57.4

28,8

8.2 9.0 O

Table4

Claims (1)

Claim A composition comprising a 45-55% polyvinyl acetate dispersion and a chromium-containing additive, characterized in that, in order to increase the strength properties and moisture resistance of the composition, it contains an aluminum-chromophosphate binder as a chromium-containing additive in the following ratio of components by dry substance, wt.%: . 45-55% Polyvinyl Acetate Dispersion ’90-97 Alumochromophosphate .l ligament 3-10