DE19541529A1 - Solvent free sealant used to keep moisture out of buildings - Google Patents

Abstract

Sealant comprises (A) an aqueous polyacrylic acid ester dispersion and/or polyacrylic acid ester copolymer dispersion and (B) fibres.

Description

Sealing leaks on structures against intrusion Moisture is particularly important in the home and at home to secondary damage, such as mechanical weathering frost frost or biological weathering Fouling to prevent. The consequences of penetrating water especially at the end of the winter months when dew sets in weather clearly recognizable. The causes of water ingress are slight These joints, chipping on roof tiles or cracked Masonry. Leaks are primarily visible the transitions from roof windows to roof covering, on the roof gutter punctures, on caravan roofs, on flat and corrugated sheets roofs, dormer windows and roof openings.

To seal leaks of the type described have been cement-bound sealants for many years, e.g. B. sealing slurries, offered and applied. Form cement-based sealants but after some time due to building movements or cracks due to frost.

Similar problems arise when using bitumen or bituminous sealants. Bitumen embrittles easily and tends therefore also for crack formation. In addition, the UV stability is often unsatisfactory.

Basically, better results are achieved with synthetic resin modified sealants. The sealing compounds used so far but contained in high proportions inorganic substances, such as Ze ment or chalk, and could take advantage of pure synthetic resins don't show off.

Technically applied pure synthetic resin systems, such as. B. Thio rubber, epoxy resins or silicones tend to adhere poorly on the building materials to be sealed and usually require one  Primer. This applies especially to coated Ma materials are building materials that are painted, waterproofed or Resin coated. A generally applicable Ab Sealant must adhere to these substances without problems can be used without additional effort.

Furthermore, practically usable sealants must be sufficient weather and hydrolysis resistant. Especially on alkaline Building materials must not be hydrolyzed.

In addition, the sealant to be used is sufficient Elasticity required to accommodate even larger building movements catch. All of these requirements are leaked by the well known means not fulfilled or only partially fulfilled.

The object of the present invention was therefore to create an environment to provide friendly sealant, which is also larger Leakages are bridged elastically and weather, heat and is stable to hydrolysis.

This object was achieved according to the invention by the provision a sealant consisting of an aqueous polyacrylic acid ester dispersion with fiber addition.

The polyacrylic acid ester dispersion can consist of mixtures various polyacrylates, from copolymers of Po lyacrylates and polymethacrylates and from copolymers of Polyacrylates and styrene.

In a particularly preferred embodiment of the invention become the aqueous polyacrylate or acrylate copolymer dispersions Polyacrylonitrile fibers added. The mass fraction The polyacrylonitrile fiber has another characteristic the invention 0.1 to 25% based on the aqueous acrylic lat dispersion.  

Polyacrylic acid esters and their copolymers, which can only be found in the Differentiating alcohol components belong to the prior art and do not need to be described here. Polymethyl Acrylate is not sticky and the stretch is low. Polybutyl In contrast, acrylate is soft and very sticky. By varying the Alcohol component in the esters can change the properties adjust the polyacrylic acid ester within wide limits.

Are suitable for the production of the sealing means according to the invention therefore especially acrylic acid ester copolymers. Others besides the Interpolymers suitable for acrylic acid esters contain meth acrylic acid or styrene as copolymerization components. In Han del the acrylates and acrylic copolymers are predominant offered as 50% aqueous dispersions. In this form NEN the acrylates directly for the production of the Invention appropriate sealant can be used. The extraction of the be used sealant is done by simply mixing the Acrylic dispersion with the fibers in the desired mass ratio ratio. Fillers and reinforcing materials can be in small proportions can also be incorporated directly. Higher filler content be better with water after adding usual Wetting agents mixed and then incorporated into the dispersion.

The crack-bridging properties of the claimed Ab Sealants to further improve are according to the claims 1, 4, 5 and 6 fibrous substances added. As such you can Glass fibers, carbon fibers and natural and synthetic poly Use mer fibers.

Glass fibers have been known for a long time. Your properties and Manufacturing is part of the state of the art. To be favoured thin (1-100 µm) and medium length fibers (2-6 mm).

Disadvantages of glass fibers are that some of them Resins are poorly wetted, and that also in the  Handling certain toxic effects not neglected can be.

Carbon fibers (carbon fibers) do not have these disadvantages on; they are therefore preferred per se. However, it is unfavorable the high price of carbon fibers.

Are cheaper and are therefore particularly preferred ganic, natural or synthetic polymer fibers. The length the added fibers can vary between 0.1 and 7 mm. Usually, however, 2 to 4 mm long fibers are used.

From the group of natural or semi-synthetic fibers may be mentioned the cellulose fibers. Fully synthetic fibers with advantageous properties for the preparation of the Invention modern sealing agents are polyamide fibers, polyacrylonitrile fibers and polyester fibers.

Polyacrylonitrile fibers have proven particularly suitable grasslands. These fibers are stable to light, weather and rot; in addition, they are not attacked by common solvents. Polyacrylonitrile fibers are commercially available, e.g. B. under the Mar known Dralon, Dolan, Orlon or Redon.

The setting of consistency and rheological behavior the claimed sealing agent can be combined with inorganic and organic thickeners. As an example of an organic thickeners are montmorillonite or pyrogenic Called silica.

Plasticizer additives, such as. B. phthalate, improve the Elasticity of the sealant permanently.

Water-miscible solvents, such as. B. ethylene glycol, improve the frost resistance when processing the Invention  appropriate sealant. The minimum film temperature can by Add butyl glycol diacetate, butyl glycol acetate or butyl Glycol can be lowered. Amounts of 2 to 5% (based on the Finished product) are sufficient.

As mineral fillers and reinforcing materials for the bean All fine-particle pigments are suitable ment. Chalk, quartz flour, dolomite, Ti are especially mentioned tandioxide and various fine-particle aluminosilicates.

The coloring of the sealant is with organic dyes as well as with colored pigments.

Common consumers can counteract the infestation with microorganisms Curing agents are added.

Sealing leakage points on structures with which he sealant according to the invention is best done with a spach tel or a wide brush by applying a 1-5 mm thick layer. After drying the repair layer, if desired to be covered with top coat.

The sealant according to the invention forms a after drying permanently elastic, fiber-reinforced sealing. This is water and weatherproof. The sealant is free of or ganic solvents and therefore particularly environmentally friendly. In addition, it is liable on all common surfaces without prior treatment or application of an adhesion promoter.

Claims (7)

1. Sealing agent, characterized in that it consists of an aqueous polyacrylic ester dispersion and / or polyacrylic acid ester copolymer dispersion and fibers. 2. Sealing agent according to claim 1, characterized in that that as a polyacrylic acid dispersion, a copolymer from acrylic acid esters and methacrylic acid esters becomes. 3. Sealing agent according to claim 1, characterized in that as a polyacrylic acid dispersion, a copolymer from acrylic acid esters and styrene is used. 4. Sealing agent according to claim 1 to 3, characterized records that the dispersion contains organic fibers. 5. Sealing agent according to claim 1 to 3, characterized records that the dispersion contains carbon fibers. 6. Sealing agent according to claim 1 to 3, characterized records that the dispersion 0.5 to 25% polyacrylonitrile  contains fibers. 7. Sealing agent according to claim 1 to 6, characterized records that the dispersion fillers and reinforcing materials in mass proportions of 0.5 to 60%.