CS200417B1 - Grouting method of cracks in building structures - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to a method for grouting cracks in building structures with synthetic resins by two-phase grouting in order to achieve the original monolithicity of the building.

In building structures, cracks arise due to unequal settlement of foundations, changes in volume due to changes in temperature and humidity of the environment, overloads, shocks and the like.

So far, crack cracking has been carried out with cement and clay-cement mixtures, water glass and, more recently, synthetic resins. Reliable monolithing of the construct is achieved by the use of thermoreactive synthetic resins, of which polyester and epoxy resins are currently the most widely used. An unresolved problem is monolithic structures and wet to flooded cracks and places with severely disturbed surroundings of cracks. There are a large number of these in civil engineering and practically all in water engineering. The low adhesion of the adhesive to the construction material and, often, the imperfect curing of the resin, do not allow a perfectly disrupted part of the building to be monolithic.

The abovementioned drawbacks are eliminated by the method of injection according to the invention, which consists in attaching to the material in the vicinity of the crack a synthetic resin with a hydrophilic organosilicon in a solution of organic solvents, prior to its injection with a synthetic resin.

The solution is tethered with a 5 to 20% solution of tetramethoxysilane in an organic solvent, ob200 417

200 417 containing from 2 to 10% of catalyst, based on the weight of the solution ·

The organosilicate applied in the first injection phase strengthens the surroundings of the cracks while drying the contact zone during the quenching curing reaction with the water contained in the cracks. In doing so, the dust particles adhere to the walls of the crack, thereby eliminating the risk of clogging. The low viscosity of the organosilicate solution ensures perfect penetration 1 to the narrowest points and filling of the porous areas around the cracks. At the same time, the volume of not only cracks but 1 cavities inside the structure is not detected and, with sufficient accuracy, the necessary amount of resin is found to perfectly green the structure. In a second phase, the crack is injected with the synthetic resin in conventional manner.

The invention is illustrated by the following examples.

Example 1

Injection of wet cracks in the concrete load-bearing structure. Drill 8 mm holes into the cracks at distances of 30 to 40 mm and drill with steel grouting tubes. 2 MPa is injected successively with a 20% solution of tetramethoxysilane Si. (OCH) 4 ⁷ acetone containing 3.2% acetic triohlorootové catalyst. At 24 hours, when the menemex organosilicate polymerization has been polymerized, at elevated pressures of 0.2 to 0.4 MPa, the crack fills the low viscosity epoxy resin.

Example 2

Grouting of cracks in the damaged sandstone masonry of the historic building interior. The preparatory part of the work is similar to Example 1, except that the cracks are sealed to maintain the original appearance by a mixture of epoxy colorless resin with catalyst and ground sandstone. Acceleration of the injection is achieved by using a two-component organosilicate solution of composition

I.roztek Btylsilicate 40 200 parts by volume aoeton 100

00tou butyla 200 ”

II.aeton solution 470 vol. Water 30 hydrochloric acid 1 vol

After the first injection phase, a break of about 1 hour should be made and the cracks filled with a low viscosity polyester resin at a pressure of 0.05 to 0.2 UPa.

In case of increased safety, the o-concrete can be replaced by alcohol.

Claims (2)

SUBJECT OF THE INVENTION 1. A method for injecting cracks in building structures with synthetic resins, characterized in that the material in the vicinity of the crack is bonded with hydrophilic organosilicates in a solution of organic solvents before it is injected with a synthetic resin. 2. The method according to claim 1, characterized in that the crack is connected with a 5 to 20% solution of tetramethoxysilane in an organic solvent, based on the weight of the solution.