DE10232269A1 - Flexible textile reinforcement composite - Google Patents

Abstract

The invention relates to a flexible textile reinforcement composite consisting of superimposed textile individual layers (2) which are connected to one another with adhesive fleece placed in between by the action of heat and pressure, adhesive joints (3) connecting between the individual layers (2) and permeable contact surfaces ( 4) and the number of permeable contact surfaces (4) in each connecting layer is between 30 pieces / cm · 2 · and 300 pieces / cm · 2 ·.

Description

The invention relates to a flexible textile reinforcement composite from a large number of interconnected individual layers of fabric, Mesh fabrics, nonwovens or their combinations for use as reinforcement, construction or protection text 1.

Compounds from a large number are known interconnected textile and / or non-textile individual layers, by local sewing are interconnected. The high between the connecting seams unrelated area share each individual layer has good permeability to air or liquids, but also split and therefore lower activity against pulling, Pressure loads on the surface or perpendicular to the surface of the association.

With similar composites from a variety of high-strength textile individual layers, e.g. DE 2839151 , these are connected to each other over the entire surface by impregnation with synthetic resin in a proportion by mass of up to 30%. Disadvantages of this combination are low permeability to air, liquids, high weight and high rigidity.

In the EP 0603 633 B1 describes a flame-retardant laminate consisting of at least 2 textile and one metallic layer, the connection of the individual layers to the multilayer laminate being carried out mechanically by needling or chemically by binders, such as polyvinyl alcohol or butadiene styrene copolymers, or by binding fibers in the nonwovens used.

Such is disadvantageous for certain applications Multi-layer laminates the low when using liquid binders vertical permeability of gases or liquids and the low separation forces between the binding fiber 2 connected layers.

In DE 199 35408 A1 describes a multi-layer laminate in which at least 3 textile individual layers are connected to one another by needling in such a way that filament parts of an external nonwoven are inserted in a plug-like manner through the middle layer into the other outer layer by means of vertically piercing barbed needles. Such needling achieves good separating forces between the layers to be connected, but there is a structural weakening of the first layer, from which the connecting fiber or filament parts are removed. Also in DE 195 21 848 A1 a compact textile composite is described in which at least three individual textile layers are connected by needling and / or chemical bonding.

The object of the invention is therefore the basis, a flexible textile reinforcement composite at the beginning described type to create, compared to previously known reinforcement composites in terms the benefits of high permeability of gases and / or liquids, high resistance to tensile and compressive loads as well as low rigidity and lighter and therefore cost-effective can be produced. According to the invention the solution of Task by the characterized features of claim 1. Advantageous Embodiments of the invention are described in the subclaims.

The flexible textile reinforcement composite according to the invention allows the increasing functional requirements for high resistance to aslant up perpendicular to a surface of the reinforcement composite acting pressure, puncture stresses by the combination of several individual textile layers that can be pushed through small areas of adhesive and are permanently connected to each other, excellent to fulfill.

By the proven in laboratory tests increase of resistance to oblique to vertically superficial acting pressure or puncture stress through the small-area, non-slip and separable glue points becomes an application-related one Reduction of the total surface area on the individual textile layers e.g. compared to comparable, by superimposing of individual layers without or with connection by e.g. Sewing possible. This means for the flexible according to the invention textile reinforcement composite Reduction of material costs for the valuable individual textile layers and increase suitability for use due to less to be carried, to be stretched, weight to be applied from the flexible textile reinforcement composite manufactured component or product.

The invention is illustrated below of embodiments explained in more detail. The associated Drawings show the schematic cross section of the flexible textile Reinforcing composite.

Like in the 1 shown, the flexible textile reinforcement composite material according to the invention 1 from individual textile layers 2 , each with a between two individual layers 2 laid special adhesive fleece together with formation of local adhesive spots 3 and local contact areas 4 are connected.

According to the invention, the glue points 3 responsible for high resistance to displacement and separation of the individual layers 2 and thus also for high resistance of the composite material, for example against pressure, puncture stresses and the local contact surfaces 4 for the vertical permeability of gases and / or liquids and for the high softness and low bending stiffness of the composite 1 ,

This composite according to the invention is achieved by two or more textile individual layers for fle xiblen textile reinforcement composite by an adhesive fleece arranged between two textile individual layers, such as 2 schematically shows. This adhesive fleece extruded, for example, by foaming 5 has a spider web-like structure made of polymeric filament parts 6 and cavities 7 , When exposed to heat and pressure on this arrangement of individual textile layers 2 and adhesive fleece in between 5 melt the polymeric filament parts 6 of the adhesive fleece 5 something penetrate the two surfaces of the individual textile layers 2 and form the sliding and separable glue points 3 , The in the network structure of the adhesive fleece 5 existing cavities 7 then form in the reinforcement composite 1 the permeable contact surfaces 4 , The following relationships exist between the properties of the adhesive fleece and the structure and properties of the reinforcing composite:

Instead of the foam-extruded adhesive fleece 5 can also be extruded adhesive fleece, adhesive net or on one or both surfaces of the individual layers to be connected 2 separately applied adhesive dots are used, provided that these adhesives have thirty to three hundred permeable contact surfaces due to their structure in each connecting layer 4 allow each cm ² connection area to be reached. To achieve special functional properties, non-textile functional surfaces such as metal foil, foam or the like can also be attached to one or both surface sides of the reinforcing composite in the same operation as when the individual textile layers are bonded or in a subsequent operation by an adhesive fleece.

Example 1:

In one embodiment, the flexible textile reinforcement composite material 1 from three warp knitted textile layers 2 with a basis weight of 175, 250 and 400 g / m ² .

The warp knitted fabrics consist of polyester multifilament yarns. For the connection between the warp knitted fabric with 175 g / m ² and the 250 g / m ² basis weight a polyester adhesive fleece 5 the type AB-TEC ABE 001 with a basis weight of 17 g / m ² and between the warp knitted fabrics with 250 g / m ^{2 basis} weight and the with 400 g / m ² basis weight a polyester adhesive fleece 5 the type AB-Tec ABE 001 with a basis weight of 24 g / m ² . This multi-layer structure is fed to a flat bed laminating machine and solidified under the following conditions to form a reinforcing composite:

For the test engineering Representation of the high pressure and puncture resistance of the reinforcement composite becomes the usual one for geotextiles CBR puncture resistance certainly. Doing so a cone-shaped Metal stamp at a constant speed through the vertical surface the clamped sample of the reinforcing composite.

With the construction listed in the exemplary embodiment, a punch penetration force of 12.45 kN was achieved. As a comparison, a non-bonded construction made of the same warp knitted fabrics made of polyester with a four-layer structure was made from the mass 175 g / m ² , 200 g / m ² , 250 g / m ² and 400 g / m ² a punch penetration force of 12.75 kN was measured.

Embodiment 2

• – Zwischen der ersten und der sechsten textilen Einzellage 2 jeweils 20 g/m².
• – Zwischen der sechsten und der zwölften textilen Einzellage 2 jeweils 40 g/m².
• – Zwischen der zwölften und der zwanzigsten textilen Einzellage 2 jeweils 60 g/m².
• – Zwischen der zwanzigsten und der vierundzwanzigsten textilen Einzellage 2 jeweils 80 g/m².

In a second exemplary embodiment, the flexible reinforcement composite material is made 1 from twenty-four textile individual layers 2 same construction. Each is a woven fabric made of polyamide filament yarn with a basis weight of 60 g / m ² . A polyamide adhesive fleece extruded through foaming is used for the connection 5 the type AB-Tec ABA 001 is used, the basis weight of the adhesive fleece, starting from the surface side of the flexible reinforcing composite that is first subjected to pressure, by impact 1 is varied according to the invention as follows:

• - Between the first and sixth individual textile layers 2 each 20 g / m ² .
• - Between the sixth and twelfth textile individual layers 2 40 g / m ² each.
• - Between the twelfth and twentieth individual textile layers 2 60 g / m ² each.
• - Between the twentieth and the twenty-fourth individual textile layer 2 each 80 g / m ² .

Thereby the thermal hardening takes place on a flatbed laminating machine in several passages each one for the melting of the adhesive fleece intermediate layers required temperature to be able to achieve economically.

With such a construction according to the invention of the flexible textile reinforcement composite 1 has the same puncture resistance as a comparable laminate made from thirty textile individual layers 2 made of the same polyamide fabric with a basis weight of 60 g / m ² , connected by sewing.

The one with the number of individual textile layers 2 increasing adhesive fleece surface mass causes larger and more local adhesive spots 3 and with it an ever increasing absorption of the energy of the penetrating body.

Embodiment 3

In another embodiment, the flexible textile reinforcement composite is made 1 from five textile individual layers 2 , In the middle of the reinforcement composite 1 is a needled nonwoven made of polyester fibers with a basis weight of 200 g / m ² .

On the two outer surfaces of the needle-punched non-woven fabric are textile layers that provide strength 2 a fabric made of polyester monofilament yarn with a basis weight of 75 g / m ^{2 was} arranged. On the outer surfaces of these two fabrics there is a single textile layer 2 made of needle-punched non-woven fabric made of glass fibers with a basis weight of 160 g / m ² . These two outer textile single layers 2 made of glass fiber non-woven fabric guarantee good flame resistance of the flexible textile reinforcement composite 1 , These five individual textile layers 2 are through adhesive fleeces 5 made of foamed polyester of the type AB-Tec ABE 001, each of which has a basis weight of 40 g / m ² .

According to the invention, the polyester needle-punched nonwoven fabric with the polyester fabrics is covered with an adhesive fleece 5 with a mass per unit area of 40 g / m ² and the polyester fabrics with the glass fiber nonwovens each by two adhesive fleeces 5 with a mass per unit area of 20 g / m ² , ie a total nonwoven mass of 40 g / m ² . This creates accordingly 3 the local glue points 3a and 3b , wherein the adhesive points formed from two layers of adhesive fleece of the same total mass 3b are available in large numbers. It is used in all textile individual layers 2 of the reinforcement composite 1 Despite different polymers of the individual layers, almost the same separation resistance is guaranteed.

Claims (9)

Flexible textile reinforcement composite, consisting of superimposed textile layers ( 2 ), which are connected to each other with adhesive fleece placed in between by the action of heat and pressure, characterized in that between the individual layers ( 2 ) connecting glue points ( 3 ) and permeable contact surfaces ( 4 ) and the number of permeable contact surfaces ( 4 ) is between 30 pieces / cm ² and 300 pieces / cm ² in each connecting layer. Flexible textile reinforcement composite according to claim 1, characterized in that the adhesive fleece ( 5 ) consists of the polymers polyamide, polyester, polyolefin or polyurethane or corresponding copolymers and was extruded with foaming. Flexible textile reinforcement composite according to claims 1 and 2, characterized in that the adhesive fleece ( 5 ) can be designed as an adhesive fleece extruded without foam, adhesive net or individual adhesive dots applied separately to the surfaces to be bonded. Flexible textile reinforcement composite according to claims 1 to 3, characterized in that the connection of the individual layers ( 2 ) with increasing, decreasing or different surface mass of the adhesive fleece in one direction ( 5 ) he follows. Flexible textile reinforcement composite according to claim 1 to 4, characterized in that a or both outer or one or more inner layers ( 2 ) non-textile functional surfaces, such as metal foil, foam or similar are. Flexible textile reinforcement composite according to claims 1 to 5, characterized in that the adhesive fleece ( 5 ) and thus the glue points ( 3 ) made of the same polymer as the textile individual layers ( 2 ) consist. Flexible textile reinforcement composite according to claims 1 to 6, characterized in that the adhesive fleece ( 5 ) has a basis weight of 10 g / m ² to 100 g / m ² . Flexible textile reinforcement composite according to claims 1 to 7, characterized in that the connection of the individual layers ( 2 ) with the same adhesive surface mass, but from one or more layers of adhesive fleece ( 5 ) exists and thus the local glue points ( 3 ) from a ( 3a ) or more ( 3b ) Adhesive fleeces are formed. Flexible textile reinforcement composite according to claims 1 to 8, characterized in that the connection of the individual layers ( 2 ) with the local glue points ( 3 . 3a . 3b ) are dimensioned in such a way that deliberate delamination of textile or non-textile individual layers takes place with the absorption and derivation of occurring forces.