SE466392B - PROVIDED TO MANUFACTURE CRYMAL PARTICULARS TO BE COVERED WITH A PREVIOUSLY EASY SMALL ADHESIVE - Google Patents

Description

46-392 10 15 20 25 30 35 2 EP-63 913 describes a heat-shrinkable tube which has on its inner surface a layer containing an epoxy resin or the like which contains peroxide. The problem with the technology is due to the fact that during the crosslinking of the pipe with a simultaneous increase of the temperature to above the decomposition temperature of the peroxide, the peroxy present in the adhesive layer simultaneously decomposes and thereby leads to a crosslinking of the adhesive layer. This leads to the desired adhesive dressing being deficient for moisture sealing.

The invention therefore has for its object to eliminate the problems just described. The object is achieved according to the invention in that the material in the hot-melt adhesive is chemically crosslinked by adding peroxides, the crosslinking agent being introduced into the hot-melt adhesive layer present on at least one surface of the shrink particle only after the crosslinking of the material for the shrink article.

The invention certainly avoids crosslinking of the hot melt adhesive with the temperatures required in the crosslinking of the shrink mold part. The hot melt adhesive experiences a shear strength increasing viscosity jump only during and at the end of the assembly, up to which time the elongation of the shrink particle and the assembly are not hindered by a sluggish or tough adhesive. It is achieved that when the shrink member is stretched for shrinkage, the adhesive present on the inside of the mold part is freely displaceable due to its good flowability and can adapt to all shape changes of the shrink member. This avoids the risk of cracks, throws or tearing of the adhesive layer from the inner surface of the shrink molding part. Due to the good flowability, the adhesive can easily shrink in all depressions and micro-roughnesses of the substrate before the start of crosslinking and properly moisten them.

The introduction of the peroxide can advantageously take place through the so-called lip diffuser, in which they: 1: for example the stretched strip coated with an adhesive, the stretched hose provided on its inside with an adhesive or an already stretched coat with adhesive layer in 10 15 20 25 30 35 466 392 3 its interior is passed through a solvent containing peroxide or introduced into such a solvent. The peroxide diffusing in the adhesive layer, due to the fact that its reaction requires heat, reacts only on the shrinkage to the original state in the temperature range required for this shrinkage. In this case, it is convenient to mutually adjust the peroxide decomposition temperature and the temperature required for the shrinkage.

The adhesive which first melts when the temperature rises first experiences a viscosity increase at the start of the crosslinking mechanism, which leads to a significant increase in the shear strength of the adhesive. According to the invention, this increased shear strength becomes effective only when it is required to secure the shrinkage joint, ie not already then, when, as in the known techniques, a high shear strength of the adhesive prevents mounting of the shrink particle.

For the purposes of the invention, any materials can be used as a base for the hot melt adhesive, for example ethylene-vinyl acetate copolymers, acrylic polymers, but also those whose base is polyamides, copolyamides, thermoplastic rubbers and polyester or the like.

These adhesive materials can also be foamable, in order to achieve a certain elasticity of the joint between a shrinkage detail and a substrate.

As the crosslinking agent, the conventional peroxides such as dicumyl peroxide, cumyl-tert-butyl peroxide, a 2,5-dimethyl-2,5-di- (tert.-butyl) -peroxyhexane or other radical initiators such as 1,10 -decane-bis-sulphanazide or p-quinone dioxime.

If, according to the invention, shrinkage-prone bands are produced which, for example in the form of bandages, find use at connecting points between pipes or pipelines, and by gluing or shrinking at the places in question a tight and corrosion-proof enclosure is provided, the strip after extrusion and coating with an adhesive is crosslinked by peroxides. The crosslinked strip is then stretched to create return forces, the non-crosslinked adhesive being only liquid during this time and being able to follow the stretching without further ado.

The stretched and adhesive-coated strip is then passed through the solvent containing the crosslinking agent, so that the peroxide used as the crosslinking agent penetrates into the non-crosslinked adhesive layer. Only during a subsequent assembly, when the strip thus produced is wound, for example, on a pipe connection and by heating in the wound state does it shrink on the pipe, the inertia of the adhesive increases after initiating the action of the crosslinking agent and thereby the shear strength is increased. A secure and moisture-tight connection is thereby achieved.

The invention is described in more detail with the aid of the following exemplary embodiments.

A band coated with thermoplastic adhesive is continuously coated with a peroxide-containing solution of an aromatic solvent, such as xylene, which contains 0.5-10%, preferably 3-5% dicumyl peroxide. At moderately elevated temperatures, the solvent diffuses into the adhesive layer and thereby transports peroxide with it by so-called trailer diffusion. The amount introduced is a function of the solution concentration and the contact time (residence time), whereby, depending on the need for crosslinking agent, the solution concentration and the residence time of the strip under the spraying device can be varied.

Instead of a spraying device, a vessel filled with the peroxide-containing solution can also be used in the implementation of the invention, through which the belt is continuously guided. Of course, other shrink particles, such as coats or hoses, can also be treated in the manner described.

Deviating from the exemplary embodiment, other solvents can also be used. Another advantage of the invention lies in the fact that the solvent can be selected according to the chemical nature of the adhesive to be enriched with the crosslinking agent. In other words, the solvent can be adjusted to the adhesive in such a way that it diffuses well into the adhesive layer and is homogeneously distributed there. Another advantageous possibility for post-introduction of the crosslinking agent lies in the fact that, for example, the peroxide alone without any liquid carrier is introduced directly into the adhesive layer, for example by rolling, squeegee or the like.

Deviating from the described possibility of introducing the crosslinking agent afterwards and by drag diffusion into the hot melt adhesive layer, it can often be particularly advantageous to dissolve the hot melt adhesive material and the peroxide together in a solvent and apply the solution to the surfaces of the shrink particle to be coated. For example, a commercially available polyamide adhesive can be dissolved, for example, together with dicumyl peroxide in toluene, this solution being applied to the surfaces of the shrink particle to be coated. This makes it possible to lower the application temperature of the hot melt adhesive well below 10 ° C. At such a low application temperature, there are no difficulties at all in undertaking the incorporation of the peroxides in advance without risk of premature starting of the crosslinking during application.

If a single application of a solution consisting essentially of hot melt adhesive, peroxide and solvent is not sufficient, the application process can be repeated until the layer thickness required for secure connection of the shrink particle and the substrate has been reached.

Another embodiment of the invention is as follows.

On the surfaces of the shrink particle to be coated, a peroxide-free layer of hot-melt adhesive is first applied, then at least a second layer of a hot-melt adhesive dissolved together with peroxides is applied to this first hot-melt adhesive layer. In this case, it is particularly suitable if the second layer or the additional layers of the dissolved hot-melt adhesive contain at least the peroxide portion required to start the crosslinking of the first layer. In this way, a multiple application of the dissolved hot melt adhesive can be avoided, without the risk of crosslinking starting when the hot melt adhesive is applied. 466 392 6 The first hot-melt adhesive layer can be applied to the usual materials in a hot state, ie approx. 150 ° -180 ° C, on the surfaces to be coated, whereupon a thin film of the same adhesive material, however in loose form, is applied. 10 15 20 25 30 35

Claims (10)

10 15 20 25 30 35 466 592 PATENT CLAIMS 1. l. Methods of producing shrink particles, such as hoses, coats, cuffs or bands, of crosslinkable plastics, which are coated on one side or on both sides with a crosslinkable hot-melt adhesive, the hot-melt adhesive material being crosslinked first during the shrinkage feedstock used for assembly. the process, characterized in that the material in the hot melt adhesive is chemically crosslinked by the addition of peroxides, the crosslinking agent being introduced into the hot melt adhesive layer present on at least one surface of the shrink particle only after the crosslinking of the material for the shrink particle. 2. A method according to claim 1, characterized in that the peroxide is introduced into the melting hour layer after the crosslinking of the shrink particle by a so-called trailing diffusion. 3. A method according to any one of claims 1 and 2, wherein ethylene-vinyl acetate copolymer or acrylate polymers are used as the base for the hot melt adhesive. 4. A method according to claim 2, characterized in that for trailer diffusion of the peroxide an aromatic solvent containing 0.5-10%, (preferably 3-5%, peroxide) is used. 5. A method according to claim 4, characterized in that the shrink particle is sprayed by means of a peroxide-containing solvent. 6. A method according to claim 4, characterized in that the shrink particle is stored in a peroxide-containing solution or is passed through this solution continuously. 7. A method according to claim 1, characterized in that the hot melt adhesive material and the peroxide are both dissolved in a solvent and applied to the shrink particle surfaces to be coated. 8. A method according to claim 1, characterized in that a peroxide-free layer of hot melt adhesive is first applied to the surfaces of the shrink particle to be coated, whereupon at least 466 392 10 15 20 25 30 35 8 is applied to this first hot melt adhesive layer. a second layer of a hot melt adhesive together with peroxide. 9. A method according to claim 8, characterized in that the second layer of loose hot melt adhesive contains the peroxide moiety required for the crosslinking or the peroxide part required for at least commencing crosslinking of the first layer. 10. A method according to any one of claims 1-9, characterized in that the introduction of the crosslinking agent into the present hot melt adhesive layer or the surfaces to be coated is carried out in the crosslinked or stretched or stretched state of the shrink particle.