DE3238993A1 - MORTAR OR COATING FABRIC WITH TEXTILE ARMORING - Google Patents

Abstract

1. Mortar with mineral binding agents or covering material with organic binding agents with a textile reinforcement made of a wide-meshed woven or knitted fabric which is finished so as to be saponification-resistant and non-slip, characterised in that the weft thread of the woven or knitted fabric is a twisted thread and the woven or knitted fabric has an elasticity of at least 3% in the longitudinal and transverse direction and has a tear resistance of at least 1200 N per 5 cm width in both directions.

Description

* ». *"; Ο ο ο ο η ο ο

323899

PATENT ADVOCATE DR. HANS-GÜNTHER EGGERT, DIPLOMA CHEMIST

5 Cologne 41, Räderscheidtstrasse 1

Cologne, October 22, 1982 No. 44

ispo Putz- und Farbenwerk GmbH & Co. KG, Gutenbergstrasse 6/6239 Kriftel

Mortar or coating material with textile reinforcement

PATENT ADVERTISER DR. HANS-GUNTHER ^- EGGEiIT "/ DIPLOMCHEMIKER

S Cologne -41, Räderscheidtstrasse 1

description

The invention relates to mortars with mineral binders and coating materials with organic binders, in which a textile reinforcement is embedded. As a rule, it is a very tear-resistant fiberglass fabric, which are protected against the attack of the cement alkali by a synthetic resin or silicone coating are. These fabrics intended for embedding in high-quality mineral plasters or synthetic resin plasters are also still non-slip, i.e. the points of contact of the threads are - usually with a synthetic resin - glued, so that the fabric has a geometrically stable structure.

The fabric reinforcement is common for the top coating of external insulation systems for reasons of energy saving have grown significantly in importance over the past decade. There is, for example, a single-shell external insulation made of insulating boards made of rigid foam, especially polystyrene, which are glued to the outside wall of the house and which have received a top coat of dispersion plaster. Due to the material-related shrinkage the rigid foam panels and the effects of temperature and weather, there are considerable tensions between the insulation panels and the plaster coating. This can lead to the external plaster shearing off the insulation panels and cracking lead in the top layer, especially where the insulation panels meet. To avoid the For crack formation, the reinforcement is provided with alkali-protected, non-slip fiberglass fabrics. These In warp and weft, glass fabrics consist of untwisted yarn or threads that only have a protective twist of, for example received fewer than 30 tours per meter.

- each -

It has now surprisingly been found that the glass fabrics used for reinforcement contribute to the formation of cracks in the coating, because they can no longer carry out the shrinkage or expansion of the plaster if they are firmly embedded in it after it has hardened. Although glass threads have a high tear strength, they have poor transverse stability and they therefore break easily when they are stretched or compressed. While the warp threads, due to their linen or leno weave, can take part in the compression, especially when the plaster layer hardens, and a later change in length, this is not the case with the weft threads made of the practically inelastic glass silk. This rather act as a rigid stiffening reinforcement which occur length changes ^resistance: opposes. During the compression, the weft thread bursts; the mortar, which then tears across the weft. If entire sheets are laid vertically, vertical cracks will also form. While it was previously assumed that the cracking of the top coating made of mineral or synthetic resin-bonded plaster is determined by its expansion behavior and tried to adapt the expansion coefficient of the plaster to that of the insulation panels, the applicant has now recognized that the fiberglass fabric used for reinforcement can also be used in the manner described Contributes to cracking.

The invention provides a remedy here by using mortars with mineral binders and coating materials with organic binders as textile reinforcement Provides saponification and non-slip, wide-meshed fabric or knitted fabric that has a tear strength of at least 1200 N per 5 cm in the longitudinal and transverse directions and has an elasticity of at least 3%.

b

-Jt-

The fabric to be used according to the invention should be whole or consist mainly of glass and / or carbon fibers. The use of highly tear-resistant organic fibers, e.g. made of polyamides, polyesters or aramids, is to achieve this special mechanical properties possible and can by using a blended yarn or a blended fabric.

Glass fabrics made from twisted thread are known per se and have been used for special applications, for example in the filter technology. Regardless of the invention However, it is very unusual for such a glass fabric to have a special purpose simple warp, i.e. a single-ended yarn as the warp thread, but a twisted thread as the weft thread.

One as a textile reinforcement of mineral or synthetic resin-bound Glass fabric that is particularly suitable for coating material is, for example, made from a leno strand of 136 tex per thread, i.e. the warp yarn has a yarn thickness of 136 tex. In it have the single filaments usually a diameter of 9 or 13 μm. For the Weft threads are made of glass threads of the same fineness For example, turn 136 tex up to 150 revs with a Z-twist and then turn at least two of these threads into S-rotation counter-rotated with about 135 turns, i.e. twisted. In the wide-meshed grid fabric then come to 10 cm 7 to 45 leno strands, i.e. 7 to 35 threads as a chain ί and 7 to 35, especially 24 to 25 threads per 10 cm as a shot. This fabric preferably has a basis weight

2
from 100 - 600 g / m, an elasticity in the warp and weft direction of 3 - 10, in particular 3 - 6% and per 5 cm width; a tear strength in the warp direction over 1,800 N and in the weft direction over 1,300 N.

It is possible to use a twisted yarn for the warp threads as well to use * This makes the production of the fabric more expensive, without it, compared to a simple one Chain, essential advantages for the textile reinforcement of mortars with mineral binders or coating materials are associated with organic binders. The shape of the grid has no decisive influence on the Use of the fabric as textile reinforcement. As a rule, warp and weft threads are arranged perpendicular to one another, But other geometric shapes of the grid, e.g. rhombuses or hexagons, are also possible.

A textile reinforcement that is elastic in the longitudinal and transverse direction e.g. for ceiling plasters or in particular for the top coatings of the rigid foam panels in the known External insulation systems can also be a loose knitted fabric made of glass or Be carbon fibers. Such a knitted fabric stands out It is made up of 20 to 25% elongation in the longitudinal direction and an elongation in the transverse direction of up to 10%. The one used to manufacture The fiberglass used in the knitted fabric can be twisted, but a protective twist is usually sufficient.

When the fabric or knitted fabric, which was elastic in both main directions and at the same time highly tear-resistant, was used in full thermal insulation systems, there were no longer any tears caused by thermal stress or shrinkage of the cover layer oppose, so that the crack does not occur "

Such a full thermal protection system has the following structure, for example. * '

Deposited rigid polystyrene foam panels with a density of 15 to 30 kg / m ³ and a panel thickness of 3 to 20 cm are attached to the load-bearing wall by gluing or using dowels.

Then a hydraulically hardening composite mortar modified with organic additives is raked on, and that Elastic woven or knitted fabrics to be used according to the invention are applied and impressed on the surface.

A decorative coating with a compressive strength below 2.5 N / cm ² can then be applied directly to the composite layer. When using decorative layers with a compressive strength above 2.5 N / mm ² , it is advisable to first apply an expansion compensation layer made of an elastic, slightly plastic, dispersed plastic and a mixture of organic or inorganic fillers with a grain size of 10 to 500 μm to the composite layer .

In the drawing, a full heat protection system with a mortar or coating material is reduced as an example 6, which is reinforced with an embedded mesh fabric 3. The section shows enlarged the mesh fabric 3 with a warp as a simple leno strand 4 and a twisted weft thread 5. For the production This top coat is the tempered composite mortar 6 on the insulation board 2 initially in strips 7, then the mesh fabric 3 is placed on top and by superficial impressions into the composite mortar embedded. A decorative plaster 1 can then be applied.

Claims (1)

P. a t e η tan s ρ r up h e I 1 «Mortar with mineral binders or '; Laminate with organic binders with 5 textile reinforcement, characterized in that it is a saponification and slide-resistant reinforcement ; contains prepared, wide-meshed fabric or knitted fabric, the one tear in the longitudinal and transverse direction * • Strength of at least 1200 pounds i per 5 cm and one ι 1o elasticity of at least 3%. J "2. Mortar or coating material according to claim 1, ! characterized by a woven or knitted fabric Based on glass and / or carbon fibers. I 15 i 3. Mortar or coating material according to claim 1 'or 2, characterized in that the fabric ! or knitted fabrics with a basis weight of 100 to I has 600 g / m ² »
2o 4. Mortar or coating material according to claim 1 i to 3 / characterized in that the fabric is a wide-meshed lattice fabric made of glass silk, ! in which the weft thread is a twisted yarn, '25 I 5 * mortar or coating material according to claim 4, j characterized in that the warp thread is a J is single-ply yarn. - Οι 6. mortar or coating material f according to claim 1 to 6, <characterized in that the fabric per 5 cm
Width one tear strength in the warp direction (longitudinal direction) over 1800 N and in the weft direction (transverse direction) over 1300 N. 7. mortar or coating material according to claim 1
to 6, characterized in that the fabric is a Elasticity in warp and weft direction from 3 to 10, ' in particular has 3 to 6%. 8. mortar or coating material according to claim 1 to j 3, characterized in that it is a wide-meshed; Contains glass silk garment Am working the longitudinally '■ an elongation 5-25%, and in the transverse direction
has an elongation of 3 - 10%.