RU2152416C1 - Method of preparing adhesive composition - Google Patents

Abstract

FIELD: building industry, more particularly gluing of building materials. SUBSTANCE: method comprises mixing liquid sodium glass or silicate flue bond with active filler which includes decationated or calcium-containing zeolite with particle size of not greater than 100 mcm. Certain ratio of components makes it possible to increase strength of adhesive seams having water resistance. EFFECT: improved properties of the adhesive composition. 3 cl, 1 tbl

Description

 The invention relates to methods for producing adhesive compositions used for gluing building materials.

The closest technical solution chosen for the prototype is a method for producing an adhesive composition for gluing building materials, including mixing liquid sodium glass with clay diatomite of the Vorotan field, crushed in a ball mill to a specific surface of 2400 cm ³ / g (Aut. St. USSR N 1728277, C 09 J 1/02, publ. BI N 15, 04/23/92). /1/
A disadvantage of the known technical solution is the lack of strength of the adhesive joints and tight binding to the feedstock, diatomite Vorotan deposits, which complicates the ability to bring the production of this adhesive composition to the consumer.

 The problem solved by the claimed technical solution is to increase the strength of adhesive joints while maintaining their water resistance through the use of more affordable raw materials.

The problem is solved due to the fact that in the inventive method, comprising mixing sodium liquid glass with an active filler, decationized or calcium-containing zeolite with a particle size of not more than 100 μm in the following ratio of components, wt. %:
Sodium water glass or silicate adhesive bond - 60-90
Calcium Zeolite - Rest
As a decationized or calcium-containing zeolite, both natural and synthetic, including HZSM-5, and natural-containing zeolites of the Heilandite type can be used.

In the case of using decationized zeolites, for example HZSM-5, there is an exchange reaction: Na ⁺ [D. Brek. Zeolite molecular sieves, 1976, Mir, p. 544-604] with the formation of sol SiO ₂ , increasing the strength of adhesive joints. In this case, it is possible to use any other decationized zeolite.

 Instead of liquid glass, the inventive method also used a silicate adhesive-bond obtained from silica fume-containing waste products of the production of ferrosilicon and silicon.

 Comparative analysis with the prototype allows us to conclude that the inventive method differs from the known one using another feedstock, namely, decationized or calcium-containing aluminosilicate zeolite with a particle size of not more than 100 microns, and thus meets the criterion of "novelty".

 The combination of significant differences allows us to solve the problem, that is, to improve the properties of the resulting adhesive composition, as well as expand the geography of its implementation through the use of more affordable raw materials, therefore, we can conclude that the claimed technical solution meets the criterion of "inventive step".

Characterization of the starting components
Sodium liquid glass TU 2278-80 for canasite and zeolites, specific gravity 1.2, module 2-2.5.

 Decated synthetic aluminosilicate zeolite type HZSM-5.

Ca-containing mineral aluminosilicate zeolite of the heylandite type having a typical unit cell composition Ca ₄ [(Al ₂ O) ₈ (SiO ₂ ) ₂₈ ] 24 H ₂ O.

Silicate adhesive-bond obtained from silicon-containing waste from the production of ferrosilicon or silicon, specific gravity 1.3 - 1.45 g / cm ³ and silicate module 2.5 - 3.5, containing 25% SiO sol in its composition according to the data of X-ray diffraction analysis ₂ .

 The inventive method is as follows.

 The decationized or calcium-containing zeolite, natural or synthetic, is ground in a ball mill and then sieved from particles exceeding 100 microns. Then, the obtained powdery zeolite is mixed with sodium liquid glass or silicate adhesive-bond in the claimed proportions.

 The resulting adhesive composition is applied with a brush to both surfaces to be bonded, applied to one another and compressed for 3 minutes. Curing of the seam occurs within 15-60 minutes.

The adhesive connection becomes waterproof when heat treated at 200 ^o C.

 Specific examples of the proposed method, as well as an example of the prototype and exorbitant examples are shown in the table.

As can be seen from the table, the claimed limits of the ratios of the components allow to obtain the most durable adhesive joints, water-resistant during heat treatment at 200 ^o C.

An adhesive proved to be excellent in which instead of sodium liquid glass a silicate adhesive bond is used, made on the basis of microsilica waste from the production of ferrosilicon and silicon, containing up to 25% SiO ₂ sol in its composition.

 Thus, the inventive method allows to obtain an adhesive composition with good properties from a fairly common and affordable raw materials, for example, such as natural calcium zeolites.

Claims (2)

1. A method of obtaining an adhesive composition, comprising mixing liquid sodium glass or silicate glue-bonded, obtained from silica fume waste production of ferrosilicon or silicon, with an active filler, characterized in that as the active filler use decationized or calcium-containing zeolite with a particle size of not more than 100 μm in the following ratio of components, wt.%:
Sodium water glass or silicate adhesive bond - 60 - 90
Decated or Calcium-Based Zeolite - Else
2. The method according to claim 1, characterized in that as the zeolite using decationized synthetic aluminosilicate zeolite type HZSM-5.  3. The method according to claim 1, characterized in that as the zeolite is used calcium-containing natural zeolite - heilandite.

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