DE2729553A1 - DIMENSIONS FOR BONDING AND COATING THERMAL INSULATION PANELS FOR FAÇADE CLADDING - Google Patents

Description

547-sch '

_ λ Hamburg, June 27th, 1997

D 77 006

DEUTSCHE TEXACO AKTIENGESELLSCHAFT Überseering AO 2000 Hamburg

Compound for gluing and coating thermal insulation panels on facade cladding

809881/0538

The invention relates to a compound for gluing and coating thermal insulation panels, in particular rigid plastic foam panels with the facade cladding.

A special property of rigid plastic foams is theirs low thermal conductivity; it is of the order of about 0.02 to 0.03 Kcal / mh ° C. This property is used for Thermal insulation of residential buildings, industrial plants, cold stores and the like by removing the interior and / or exterior walls covered with foam sheets. The foam sheets will be attached to the wall to be isolated by means of an adhesive and its free surface with a protective layer of the the same material, which makes the plate resistant to mechanical pressure, so that cracking in the final applied finishing plaster or paint is avoided. This protective layer is therefore called a pressure compensation layer.

The substrates to which the foam sheets are applied are made of concrete, masonry made of brick, lime, colored sandstone and other absorbent substrates, so have one rough surface and a different coefficient of expansion than the foam sheets. It is therefore necessary that the To apply panels with an adhesive that adheres firmly to both the substrate and the foam board. the After curing, the adhesive layer must have sufficient elasticity have to largely take into account the different elongation properties of the two materials that are connected by them balance. And the pressure compensation layer must have the highest possible flexural strength in order to be more mechanical To resist stress. However, it should also be water-repellent in order to prevent moisture penetration into the foam panels and thus a reduction in thermal insulation. On the other hand, the water vapor permeability of the pressure equalization layer should be so high that sufficient Water vapor diffusion from the inside to the outside is guaranteed.

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From DT-OS 1 471 100 it is known to have a mortar mass add a homogeneous mixture of latices of two polymers, which increases the elasticity and the flexural strength after the Setting of the mass is significantly improved. The adhesive strength of this adhesive leaves something to be desired.

According to DT-AS 2 018 214, this disadvantage can be remedied by using a styrene-butadiene plastic dispersion instead of the latex mixture begins. However, adhesive and pressure compensation layers produced with this mixture have a relatively large water absorption capacity and insufficient water vapor permeability.

The invention is therefore based on the object of providing a mass for gluing and coating thermal insulation panels, in particular To create rigid plastic foam panels in the facade cladding, the high adhesive strength to the to be connected Has surfaces; After the mass has hardened, the layers formed should have good tensile, flexural and compressive strength, have high water repellency and the desired water vapor permeability.

The object is achieved by a mass of 90-98% by weight of a hydraulically setting mortar and, if necessary, aggregates, an aqueous plastic dispersion with a solids content of 10-2% by weight and, based on the total solids content of the Mass, 7-20% by weight of water, for gluing and coating thermal insulation panels on facade cladding, which thereby is characterized in that the plastic dispersion consists of 25-35% by weight Vinyl esters of synthetic branched monocarboxylic acids with 9-11 carbon atoms and 75-65% by weight vinyl acetate.

For the sake of simplicity, in the following, instead of "vinyl esters, synthetic branched monocarboxylic acids are used with 9-11 carbon atoms "the term" vinyl ester branched monocarbon

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acids "set.

It was not foreseeable that the task at hand would become more branched through the incorporation of a plastic dispersion made from vinyl ester Monocarboxylic acids and vinyl acetate can be dissolved in a mortar mixture, especially since a layer that is associated with the 'art material dispersion and produced without mortar, worse has mechanical and water resistance.

The vinyl esters of branched monocarboxylic acids are commercially available as a technical mixture under the trademark "Veo-Va". The ratio of vinyl ester of branched monocarboxylic acids to vinyl acetate should be within the limits given above lie. The higher the vinyl acetate content, the greater the water absorption. If you go under with the vinyl acetate content 65% by weight, the adhesive strength will no longer be sufficient achieved. The dispersion can be prepared in a known manner by emulsion polymerization. The monomers are emulsified in water with the help of an emulsifier. A per compound is used as the polymerization catalyst, z. B. potassium persulfate. The result is a dispersion with a particle size in the range from about 0.04-0.002 ram. The particle size is of no importance for the properties of the composition according to the invention. The solids content of the dispersion is in generally in the range of 40-70% by weight, preferably 50% by weight. To increase the stability of the dispersion compared to the hydraulically setting mortar can be a stabilizer such. B. a polyglycol Polyether, in an amount of approx. 0.1-3% by weight, based on the solids content of the dispersion, can be added.

Lime, gypsum, cement mortar can be used as a hydraulically setting mortar or the like can be used. Portland cement is preferred. Suitable aggregates are sand, stone, Gravel, crushed stone, asbestos and the like. For economic

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Sand is preferred for grounds. A part by weight of cement can contain up to approx. Sand can be added.

To improve the workability of the mortar, 0.1-3% of a thickener, preferably methyl cellulose, with a viscosity setting of 1000 cP of a 2% aqueous solution can be incorporated.

The mass is produced by mixing the dry mortar, possibly the aggregate and the plastic dispersion. The mixing is expediently carried out in a mortar mixer, the plastic dispersion being initially introduced and the dry mortar and, if necessary, aggregates are shaved up. Smaller batches are made in a correspondingly large agitator made, whereby it is usually preferred to submit the mortar and aggregates and mix in the plastic dispersion.

With the composition according to the invention, thermal insulation panels made of phenolic resin foam, polystyrene resin foam, polyurethane resin foam and on a mineral basis, e.g. B. aerated concrete, glass fibers, glued and coated.

As can be seen from the figure attached here, an adhesive layer 2 of the composition according to the invention is applied to the masonry 1 applied in a thickness of at least 5 mm. If the masonry has a very rough surface, the adhesive layer should 20 mm. The mass does not need to be applied as a continuous layer, in practice it is point-shaped or applied in strips. Then the foam board 3 is placed with light pressure and then the adhesive layer 2 has set at least partially, a pressure compensation layer is applied to the free surface of the foam board 3 4 applied from the composition according to the invention in a thickness of approx. 3-8 mm. About the tensile and flexural strength

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To improve this, this layer can be reinforced with a glass fiber fabric or mat. After setting the pressure compensation layer is provided with a customary plaster or paint 5.

The invention and the advantages it leads to are illustrated by the following examples.

In all examples, 70% by weight of sand was used in a stirrer (Type H 32) and 20% by weight of cement (Portland cement, Type 450) mixed with one another. To this mixture were each 6-10% by weight plastic dispersion with a solids content of 50% and 14-10% by weight of water are added and the whole is mixed. The 6-10% by weight 50% dispersion corresponds to a cement: Polymer ratio of 1: 0.15-1: 0.25. Which plastic dispersion was used in the individual examples and how The cement: dispersion ratio was large in each case, can be seen from the table attached here, in which all examples are put together.

In all examples, to improve the processability of the mixture, a methyl cellulose, its 2% aqueous Solution has a viscosity of 1000 cP. On 75 parts by weight Dispersion were 25 parts by weight. a 2% aqueous methyl cellulose solution given.

The mortar mass obtained in each example was tested for its properties. For this purpose, test specimens 5 mm thick were produced and, after setting, drying for 14 days at 23 ^° C. and 60% relative humidity, checked for the following properties:

Tensile strength according to DIN 51221, bending strength according to DIN 52362 water vapor permeability according to DIN 53122 Water penetration on the surface:

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For this purpose, 0.5 ml of water was dropped onto the surface and measured the time it took for the water to penetrate the test specimen completely.

Adhesion:

A 50 50 χ 50 mm cube of rigid polystyrene foam is bonded between two 50 χ 60 χ 5 mm asbestos cement panels with the mortar mass obtained in each example. After drying for 14 days at 23 ^° C. and 60% relative humidity, the two asbestos cement plates of the test specimen are torn apart at a rate of 20 mm per minute and the tearing of the rigid polystyrene foam at the interface is assessed.

The results are shown in the table.

As the table shows, the composition according to the invention is equally good with regard to adhesiveness, with regard to all others desired properties achieved significantly better results than with the known masses.

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Copolymer
Baals relationship
Cement / dispersion tensile strenght
(kp / cm ² ) according to
0IN 51221 J a b e 1 1 e Mass vapor transmission
dissolution after
DIN 53122
MddU g / mV24 h Adhesion (x)
on polystyrene
Rigid foam Vinyl acetate
Versaticsiura-
Vinyl ester 1 / 0.11 12.8 Flexural strength
(kp) after
DIN 52362 Mass penetration
aSgtn at the waiter
fl see
Tent / 0.5 ml Η _? 0 560 2 ■ 1 / 0.15 16 55.2 62 · 480 1 ■ 1 / 0.19 22nd 67.2 72 ' 410 1 09 S. 1 / 0.22 33 81.6 89 ' 330 1 CO I. 1 / 0.26 36 93.6 66 * 300 1 00
00 Styrene butadiene
Copolymer 1 / 0.11 14th 98.4 72 « 430 3 1/0! ■ 1 / 0.15 15th 57.6 5 « 320 2 a 1 / 0.19 16 64.8 4 « 230 1-2 0 » a 1 / 0.22 17th 69.6 V 210 1-2 ι 1 / 0.26 16 55.2 V 170 1-2 Styrofoam acrylate
Copolymer 1 / 0.19 20th 50.4 4 ' 180 5 70.0 11 ·

(x) 1 award 100 % ■ 80X

■ 301

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Claims (1)

Claim Mass of 90-98% by weight of a hydraulically setting mortar and, if necessary, additives, an aqueous plastic dispersion with a solids content of 10-2% by weight and, based on on the total solids content of the mass, 7-20% by weight water, for gluing and coating thermal insulation panels in facade cladding, characterized in that that the plastic dispersion of 25-35% by weight vinyl esters of synthetic branched monocarboxylic acids with 9-11 carbon atoms and 75-65% by weight vinyl acetate. 809881/0538 ORIGINAL INSPECTED