DE3216634A1 - Method of sealing a crack or joint - Google Patents

Description

GRÜNECKER, KINKELDEY,

PA TENTANWALlIi

A. GRÜNECKER, on »«; DR H. KINKELDEY. & .h ..- ing

DR W. STOCKMAIR ₁ OIPL-lt.'V.ÄE

DR K. SCHUMANN. chpl.-w ' ₃

P. H. JAKOB, am.- ""!

DR G. BEZOLD. »Pl-che-m

W. MASTER. oipl - »/ i

H. HILGERS. [in the."

DR H. MEYER-PLATH. [»Μι mg

SOCIETY FOR NEW GRi3HDU ¥ GSTECfflIK SOCIETY HBE
Hietzinger Hauptstrasse 41
1130 Vienna
Austria

Terfahreix to seal a crack or Gap

8000 MUNICH 22

MAXIMIUANSTRASSE 43

May 4, 1982 P 17 289-dg

TELEPHONE OK 89) 22 2B 62

TELEX 05-29 3ÖO TELEGRAMS; MONTH *

description

The invention relates to a method for sealing a crack or a joint in concrete or natural stone or a crack-prone Concrete or natural stone area using synthetic resin compounds.

As a result of temperature differences, loads and the like, cracks appear in concrete and natural stone bodies, which are then sealed must to prevent the ingress of moisture and thus further destruction of the structure, e.g. the leakage of dams to prevent. However, the methods used so far were not suitable for making seals that match those in the area the cracks permanently withstand movements caused by tension and shear and pressure forces.

The invention is based on the disadvantages of the previous Procedure to avoid and a permanent sealing of a crack in concrete that can cope with the stresses that occur or natural stone or a crack-prone concrete or natural stone area using synthetic resin compounds.

The method according to the invention seeks to achieve this object before that at least on the side surfaces of a prefabricated Indentation in the area of the point to be sealed initially one with the formation of an adhesive bridge with good adhesion to concrete

and / or natural stone curable plastic compound applied and in the remaining indentation a further, elastically resiliently hardening plastic compound is introduced, and that then allowed to harden the two plastic masses together will. The adhesive strength of the adhesive bridge on natural stone or concrete must be greater than that required to stretch the elastic plastic compound tensile forces to be applied.

According to the invention, two plastic compounds are preferably used used, which are formed essentially from the same starting materials, but with different proportions. In this way, the good connection between the adhesive bridge and the elastic plastic compound is guaranteed.

An advantageous embodiment of the process according to the invention consists in using known plastics compositions which are curable in the presence of polyamines and are based on epoxy resin and polybutadiene or butadiene-styrene copolymer, optionally with suitable fillers. This method can also be used on wet ground and at temperatures below 0 ^° C. The seals obtained have a pH value corresponding to the pH value of the concrete or natural stone.

The above-mentioned, known per se, in the presence of Polyamines curable compositions based on epoxy resin and polybutadiene or butadiene-styrene copolymer have e.g. the following compositions:

Butadiene-styrenes Epoxy resin content Polyamines as hardeners or polybutadiene of the invention mixture

1.) 50 730 220 2.) 100 700 200 3.) 150 650 200 4.) 200 600 200 5.) 250 550 200

These proportions are each based on 1000 weight units.

The composition 1.) gives a very hard end product. In the order of the compositions ^.), 3.), 4.) 5.) takes the hardness decreases, and the end product becomes correspondingly more elastic, more flexible and more ductile.

According to the invention, methyl methacrylate can also be used instead of epoxy resin be used. However, other thermosets can also be used in the method according to the invention. as Aggregates or fillers can contain various asbestos qualities, Rubber granules, color pigments and the like can be used.

The seals obtained according to the invention have ^{an elongation at break of at least 15% even at temperatures below 0 °} C. and at the same time withstand a permanent pressure load of at least 20 kg / cm.

The invention is illustrated by the following examples but is not limited, explained in more detail.

-β-

Example 1: Bonding bridge

A two-component filler is made from the following ingredients from:

Resin content (670 g of low molecular weight liquid epoxy resin with an epoxy equivalent weight from 175-210 g + 30 g asbestos fiber, fiber length 1-2 mm) 700 g

Hardener (consisting of aliphatic polyamine and elastomeric copolymers as modification and elasticizing agents im

Ratio 3: 1) 300 g

After 24 hours, the hardened mixture has a compressive strength of approx. 700 kg / cm, 230 kg flexural strength and 160 kg / m tensile strength and

2 an adhesive strength of approx. 110 kg / cm, so that the concrete is always

rips.

Example 2: bonding bridge

A low-viscosity and spreadable mass is made from the the following components:

680 g of low viscosity modified bisphenol A plus Epichlorohydrin Epoxy resin with an epoxy equivalent weight of 190-210 g

20 g asbestos fiber as in example 1 300 g hardener as in example 1

After 24 hours, the hardened mixture has approx. 600 kg of pressure,

2 210 kg flexural strength, 150 kg tensile strength and 96 kg / cm adhesive strength, so that the concrete cracks.

Example 3: elastic grout

A mortar mass is made from the following components:

250 g of epoxy resin as in Example 2 250 g of hardener, consisting of

500 g amino base mixture and

500 g of elastomer copolymers

500 g rubber granulate (250 g 0.5-3 mm diameter

25Og 5 - 8 mm diameter).

After a hardening time of 24 hours, one pull of

2
6-8 kg / cm an elongation of 25%.

Example 4: elastic grout

A filler is made from the following components:

325 g epoxy resin as in example 2 325 g hardener as in example 3 175 g rubber granulate 0.5-3 mm 175 g rubber granulate 5-8 mm Example 5: Elastic joint compound

Mix the following ingredients:

-SF-

100 g benzoyl peroxide powder hardener 75% 300 g rubber granulate (200 g 0.5 - 3 ram and

100 g 5 - 8 mm)

500 g of low viscosity methyl methacrylate resin 100 g of elastomeric copolymer.

This grout can be adhered wet on wet with an epoxy resin bridge get connected.

Claims (4)

NGT Society for New Foundation Technology Gesellschaft m.b.H. in Vienna (Austria) Method of sealing a crack or joint Patent claims: Process for sealing a crack or joint in concrete or natural stone or a crack-prone concrete or natural stone area by means of plastic compounds, characterized that at least on the side surfaces of a prefabricated indentation in the area of the point to be sealed initially a plastic mass which can be hardened to form an adhesive bridge with good adhesive strength on concrete and / or natural stone applied and in the remaining indentation another elastically stretchable hardening plastic compound is introduced, and that then the two plastic compounds allowed to cure together. 2. The method according to claim 1, characterized in that that you use two plastic compounds, which essentially consist of the same starting materials, but with different proportions. 3. The method according to claim 1 or 2, characterized in that that known as plastic masses, curable in the presence of polyamines masses based on Epoxy resin and polybutadiene or butadiene-styrene mixed polymer can be used with suitable fillers. 4. The method according to claim 1 or 2, characterized in that that known as plastic masses, hardening in the presence of benzoyl peroxide masses based on Methyl methacrylate and compatible elastomeric copolymers as elasticizers with suitable fillers can be used.