RU2478680C2 - Epoxide oligomer-based adhesive composition - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to adhesive compositions and can be used to glue metal articles and eliminate defects in metal structures. The composition contains the following (pts.wt): epoxide oligomer 100, curing agent - 14, silicon dioxide sized with γ-aminopropyl triethoxysilane - 200, carbonyl iron or iron oxide - 100.

EFFECT: invention increases shearing and tearing strength.

3 cl, 2 tbl, 10 ex

Description

The invention relates to the field of adhesive compositions, in particular to adhesive compositions based on an epoxy oligomer, designed to eliminate defects in metal structures, tanks, pipelines, etc. that arise during their operation as a result of corrosion and mechanical wear, as well as for bonding metal products .

Known adhesive epoxy composition [RU 2188840 from 09/10/2002, C09J 163/02] based on epoxy-diane resin, ester plasticizer, dicyandiamide hardener and filler (a mixture of zinc oxide and silicon dioxide and additionally contains calcium oxide).

The closest technical solution chosen by the authors for the prototype is a known adhesive composition based on an epoxy oligomer, an amine hardener, such as polyethylene polyamine, and an oxide filler, which is a natural mixture of oxides of silicon, aluminum, calcium, iron, magnesium, potassium, sodium, titanium [ RU 2099381, publ. 12/20/1997, 6 C09J 163/02]. However, this composition has insufficient adhesion when bonding metals and, possibly, the composition has insufficient water resistance and high wear.

The objective of the invention is to increase the adhesive ability (increase shear and tear strength) of the epoxy adhesive composition.

This goal is achieved due to the fact that the adhesive composition is based on an epoxy oligomer, polyethylene polyamine, and as fillers - silicon dioxide treated with γ-aminopropyltriethoxysilane, and carbonyl iron (or iron oxide).

The adhesive composition is prepared by mixing at room temperature the ED-20 epoxy oligomer (GOST 1587-84), polyethylene polyamine (TU 2413-357-00203447-99) and fillers: carbonyl iron (GOST 13610) or iron oxide (TU 2611-023-576- 270-01) + silicon dioxide (GOST 22551-77), treated with γ-aminopropyltriethoxysilane.

The processing of silicon dioxide is carried out by mixing it in a toluene solution of γ-aminopropyltriethoxysilane.

The composition is applied with a spatula to the bonded material. The specimen intended for shear tests consists of two strips of sheet material glued together lapped together. The shapes and sizes of the samples comply with GOST 14759-69. The specimen intended for peeling tests consists of two identical parts in the form of fungi. The shape and size of the samples comply with GOST 14760-69. Glued samples can withstand up to testing at least 24 hours under a pressure of 0.15 MPa.

The test of the strength of the adhesive joint for shear and tearing was carried out according to GOST 14759-69, 16760-69, the composition of the compositions are given in table 1. The test results of the strength of the adhesive joint of the known compositions according to the invention are shown in table 2.

Example 11-21

On the surface of a pre-defatted and sanded plate and fungus made according to GOST 14759-69, 14760-69, an adhesive composition is applied with a spatula according to examples 1-10, and the same metal plate and fungus are pressed from above under a pressure of 0.15 MPa. Glued samples can withstand at least 24 hours before testing. The shapes and sizes of the samples, the test of the strength of the adhesive joint for shear and separation is carried out according to GOST 14759-69, 14760-69.

The results obtained for the adhesive compositions of examples 1-10 are respectively examples 11-20.

For comparison, the adhesive composition of the above prototype was taken and the results are example 21. The test results of examples 11-21 are presented in table.2.

The moisture absorption of all the obtained epoxy adhesive compositions is low and amounts to 0.03-0.06%, and the wear resistance does not exceed 2%.

Table 1 The composition of the adhesive compositions, parts by weight No. p / p Name of components Sample Numbers one 2 3 four 5 6 7 8 9 10 one 2 3 four 5 6 7 8 9 10 eleven 12 one Epoxy oligomer (GOST 1587-84) one hundred one hundred one hundred one hundred one hundred one hundred one hundred one hundred one hundred one hundred 2 Polyethylene Polyamine (TU 2413-357-00203447-99) fourteen fourteen fourteen fourteen fourteen fourteen fourteen fourteen fourteen fourteen 3 Silica (GOST 8736-93) 200 one hundred one hundred four Γ-aminopropyltriethoxysilane-treated silica 200 one hundred one hundred 200 one hundred one hundred 200 5 Carbonyl iron (GOST 13610) one hundred 200 one hundred one hundred 6 Iron (III) oxide (TU 2611-023-576-270-01) one hundred 200 one hundred one hundred

table 2 Adhesive properties of adhesive compositions Example No. Shear breaking stress, MPa The tensile strength of the adhesive bonding at separation, MPa one 2 3 eleven 13 23 12 13 36 13 13 25 fourteen 10.5 40 fifteen 12.5 38 16 16 45 17 12.5 thirty eighteen 10 34 19 fourteen 40 twenty 90 32 21 1.15 -

Claims (3)

1. An adhesive composition based on an epoxy oligomer, polyethylene polyamine and an oxide filler, characterized in that it contains silicon dioxide treated with γ-aminopropyltriethoxysilane as an oxide filler in the following ratio, wt.h .:
Epoxy Oligomer one hundred Polyethylene polyamine fourteen SiO ₂ treated with γ-aminopropyltriethoxysilane 200 2. The adhesive composition according to claim 1, characterized in that, as an adhesive component, it further comprises carbonyl iron in the following ratio of components, parts by weight:
Epoxy Oligomer one hundred Polyethylene polyamine fourteen SiO ₂ treated with γ-aminopropyltriethoxysilane 200 Carbonyl iron one hundred 3. The adhesive composition according to claim 1, characterized in that, as an adhesive component, it further comprises iron oxide in the following ratio of components, parts by weight:
Epoxy Oligomer one hundred Polyethylene polyamine fourteen SiO ₂ treated with γ-aminopropyltriethoxysilane 200 Iron oxide (III) one hundred