NL1004692C2 - Reinforcing materials and methods for their manufacture. - Google Patents

Description

REINFORCEMENT MATERIALS AND METHODS FOR THE MANUFACTURE THEREOF

The present invention relates to a method of manufacturing a self-adhesive reinforcing material, and to the material thus obtained and its applications.

5 In buildings and structures, such as roads, bridges, viaducts and the like, uneven expansion and shrinkage, the setting of the construction or work of art, too high a load, etc., can cause cracks or deformations. A good example in road construction 10 is rutting in asphalt roads due to overload.

Cracks can also occur in construction work, for example, in the finishing thereof, such as in building materials used therein such as gypsum plaster, cement plaster, or in floors, terraces, asphalt roofs, exterior wall insulation systems and the like. To prevent this type of effect, the building material used is generally reinforced by means of a reinforcing material.

Known reinforcement materials consist of open-meshed fabrics or webs, the fibers of which are generally protected against wear or action by acids and / or bases by means of a resin. Then, when used in building materials, the reinforcing material is pressed into the preferably still wet base layer, after which a finishing layer is applied.

However, when the base layer is not or no longer wet, some form of attachment of the reinforcing material to the substrate is still desired. It is therefore known to apply an adhesive layer on one side after the protective resin has been applied and cured. This application of the adhesive layer generally takes place at the location of the work.

The disadvantage of this, however, is that the application of the adhesive layer requires an extra action and extra material.

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The object of the present invention is to provide a new method for manufacturing a self-adhesive reinforcing material, as well as a new reinforcing material.

This is accomplished by the invention by a method comprising the steps of: a) providing a coarse-mesh net consisting at least in part of reinforcing fibers; b) at least partially encapsulating or impregnating the reinforcing fibers of the net with a coating of an adhesive resin; and c) making the resin tack-free on one side of the net.

The above-described method has a large number of advantages. Both making the reinforcing material self-adhesive and enveloping or impregnating the reinforcing fibers are carried out in one operation. For the manufacturer, this means the savings of an additional operation in the manufacture of the reinforcement material. Since the coating layer and the adhesive are one product, the bond strength of the reinforcing fibers of the net with the resin is maximum. For the consumer, the self-adhesive reinforcing material according to the invention has the advantage that no additional glue has to be used. This not only saves the glue, but also the action of applying the glue.

The invention further relates to the reinforcing material which can be obtained by means of the method according to the invention. Such a self-adhesive reinforcing material comprises, for example, a coarse-meshed net, which consists of reinforcing fibers, which reinforcing fibers are at least partly encapsulated or impregnated with an adhesive resin, which is made non-adhesive on one side of the net. Optionally, the reinforcing material according to the invention can be combined with other reinforcing materials, such as threads, nonwovens, fleeces, rovings, mats and others. The reinforcing material according to the invention is with you. ^ 3 without suitable as reinforcement of building materials, and in particular for use in road construction, for example as reinforcement in asphalt.

When the reinforcing material according to the invention is attached to surfaces or walls, it remains lying or hanging. This facilitates processing, so that it can also be used overhead and against vertical or sloping surfaces. However, it is also possible, as long as no finishing layer of asphalt, cement, plaster, paint, decorative plaster and the like has been applied, to remove the reinforcement material without damage and then re-attach it. This works particularly well when the surface is dry and dust-free.

Because the reinforcing material is adhesive-free on one side, it can for instance be supplied as a roll. Moreover, because of the one-sided tack-free nature, the reinforcing material is not soiled and does not stick to machines, material, hands or feet during manufacture or when applying the finishing layers.

The open net structure ensures that the following finishing layers penetrate well through the reinforcement material and anchor it firmly in both the substrate and the following layers. As a result, it will become part of the whole and it can withstand all compressive and tensile forces, shear stresses and the like, catch. The formation of cracks as a result of the setting of the substrate, for instance in the case of walls, floors, roads, etc., is thereby reduced or even prevented. When the reinforcing material according to the invention is used in asphalt roads, it prevents the rutting that occurs as a result of road traffic, especially of trucks during the summer.

In the manufacture of the self-adhesive reinforcing material according to the invention, a resin is preferably used which can in some way be made partially self-adhesive. Particular preference is given to a resin which is sensitive or can be made sensitive to UV light, whereby the resin is made tack-free on one side by irradiating the resin-coated or impregnated net on one side with UV light. Examples of such UV-5 sensitive or UV-sensitive resins are acrylate resins or mixtures of several acrylate resins with one another or with other resins.

The net is, for example, a fabric or a fabric, and can be made by weaving, knitting, stitching together, cross-linking or gluing together reinforcing fibers. The reinforcement fibers can make any angle with each other. Angles between about 45 ° and 90 ° are preferred. The reinforcing fibers that form the net can be threads or rovings made, for example, of glass, carbon, aramid, polyester, acrylic, polyvinyl alcohol, or combinations thereof. Of course, the materials and net-forming methods mentioned herein are only examples which are particularly preferred, but which can be replaced by those skilled in the art with equivalents also within the scope of the present invention.

The invention further comprises a method for reinforcing building materials, comprising applying the reinforcing material to a substrate and applying one or more finishing layers over it. The finishing layers can be plaster of plaster or cement, layers of asphalt, concrete, paint, decorative plaster and the like.

The present invention will be further elucidated by the following examples, which are given by way of illustration only and are not intended to limit the invention in any way.

35> 5 EXAMPLE 1

Strengthen kinase tissue

On a loom a roving 5 of 1 x 600 Tex per centimeter is hammered onto a chain consisting of two threads of 272 Tex per centimeter. This creates an open-mesh or coarse-mesh fabric with a mesh size of 1 cm2. This fabric is then coated with a UV-sensitive self-adhesive acrylic dispersion and after drying irradiated on one side with UV lamps to make this side tack-free.

EXAMPLE 2

Self-adhesive reinforcement leasel

On a knitting machine, a chain of 2400 15 Tex is knitted together every two centimeters with a weft thread of 2400 Tex every centimeter. This open-meshed clutch is then treated as in Example 1.

Claims (10)

A method of manufacturing a self-adhesive reinforcing material, comprising the steps of: a) providing a coarse-mesh net consisting at least in part of reinforcing fibers; B) at least partially encapsulating or impregnating the reinforcing fibers of the net with a coating of adhesive resin; and c) making the resin tack-free on one side of the net. Method according to claim 1, characterized in that the resin is sensitive or can be made sensitive to UV light and the resin is made tack-free on one side by irradiating the resin-coated or impregnated net on one side with UV- light. The method according to claims 1 and 2, characterized in that the UV-sensitive or UV-sensitive resin to be made is an acrylic resin or a mixture of multiple acrylic resins with one another or with other resins. 4. Method according to claims 1, 2 and 3, characterized in that the netting is provided by weaving, knitting, stitching together, cross-linking or gluing together the reinforcing fibers. Method according to any one of claims 1-4, characterized in that the reinforcing fibers, which form the net 25, form an angle with each other between 0 and 90 °, preferably between 45 and 90 °. 6. A method according to any one of claims 1 to 5, characterized in that the reinforcing fibers forming the net are threads or rovings made of glass, carbon, aramid, polyester, acrylic, polyvinyl alcohol, or combinations thereof. Self-adhesive reinforcement material obtainable by the method according to any one of claims 1-6. 8. Self-adhesive reinforcing material, comprising a coarse-mesh net, which consists of reinforcing fiber 10C45S2, which reinforcing fibers are at least partly encased or impregnated with an adhesive resin, which is made non-adhesive on one side of the net. Self-adhesive reinforcing material according to claims 7 or 8 for use as reinforcement of building materials, in particular for use in road construction. 10. Method for reinforcing building materials, comprising applying the reinforcing material to a substrate and applying one or more finishing layers over it. 1004692