NL8503115A - SHrinkable articles coated with a hot melt adhesive. - Google Patents

Description

IJL 33107-Kp / öJ / vD

Crimped articles coated with hotmelt adhesive.

The present invention relates to a shrinking article, such as a hose, a cap, a cuff or a strap, of a cross-linked starting material based on olefin polymerisates or olefin-blend polymerisates, elastomers or thermoplastic rubbers, with at least one surface provided with a cross-linked heat-curing adhesive layer.

It is already known to coat shrink articles of any shape on the inside, when it concerns a hollow body, with a so-called hot-melt adhesive or also to provide a shrinkable tape on one or both sides with such an adhesive. The coating with such an adhesive has the advantage that, in the crimped state of the shrinking article, the clamping fit on the substrate thereof is improved and at the same time the gap between the shrinking part and the substrate is closed moisture-tight. The currently commercially available heat-curable adhesives unfold their adhesive property during a thermoplastic flow process, the adhesive power (adhesion) being all the more favorable as the adhesive flows and is wetted by the surfaces. This property is lost once the material of the adhesive layer has been cross-linked. On the other hand, it is possible to increase the shear strength thereof by cross-linking or pre-crosslinking the adhesive, so that the mechanical strength of the bonded surfaces is improved. To meet these per se contradictory requirements, special adhesives are already used (laid-open German Patent Application 3111064), which consist of functional groups linked by hydrocarbon chains, the latter being built up prior to the crosslinking process necessary for the shrinkable material. from partially or multi-branched molecular building blocks thus provided with side chains. However, this known measure leads to a considerable limitation of. the hot-melt adhesive usable in practice.

On the basis of this prior art, the invention therefore has the task to provide an option where - 2 - arbitrary crosslinkable heat-setting adhesives for a certain connection can be used in the shrinkage technique.

This task is solved according to the invention by the fact that in the case of a shrinking article with a heat-setting adhesive layer, at least one of the adjacent starting material layers is cross-linked after the inoculation of organosilane compounds by moisture action. This measure also guarantees simple manufacture with hollow bodies, such as hoses and shrink articles with an arbitrary shape. The control from a low crosslinking to high degrees of crosslinking is easy to carry out, while the control of the crosslinking mechanism makes it possible to adjust the viscosity of the adhesive, for example, as desired.

The material of the shrinking body itself can be cross-linked by the action of moisture, in the event that the applied adhesive layer can also be cross-linked after the grafting of silanes under the influence of moisture, it will advantageously be different when practicing the invention. choose cross-linking 20 degrees for the adjacent layers. The material of the shrinking article can also be cross-linkable by means of peroxide or under the influence of radiation, while the heat-setting adhesive can be cross-linked by moisture action, albeit depending on the amount of the grafted silane compounds, with different degrees of cross-linking. In this way, by means of a certain degree of cross-linking resp. a desired toughness (viscosity) of the adhesive can be adjusted before the cross-linking degree, so that the adhesive can be optimally adapted to the most diverse applications.

A particularly advantageous embodiment according to the present invention is that, when the material of the shrinking article, for instance of the tape, of the hose or of the cap, can be cross-linked by moisture action, while the heat-setting adhesive is cross-linked by means of peroxide. Namely, it is then possible to allow the cross-linking to take place only after a later addition of the cross-linking agents when the shrinking article is brought to shrinkage under the influence of the temperature.

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This ensures that the adhesive resp. the material of the adhesive only undergoes a viscosity jump when the mounting is finished, which increases its shear strength, while up to this time the widening of the shrinkage particle as well as the mounting by an adhesive which is too tough is not prevented.

The heat-curing adhesive can be applied to the shrink article by a process of choice, whereby it is expedient to extrude or spray the shrinkable molded body and the adhesive layer together. If the material of the shaped body consists of a starting material on which silane compounds have been grafted, the material of the shrinking body cross-links by a subsequent action of air without changing the properties of the adhesive. In subsequent yer widening, eg of a shrinking hose, for the subsequent shrinkage by temperature action, the adhesive, the flowability of which until that time is not hindered by a cross-linking, can follow the stretching movements of the hose without that this leads to jumping off-20. Only when subsequently the adhesive layer of the flared hose, but also of the stretched band or of the stretched cap or cuff is enriched for cross-linking with the cross-linking agent, does the adhesive undergo a shrinkage process under the influence of the shrinking temperatures viscosity increase, which involves the shear strength of the adhesive layer required by such shrinkage joints.

A method which has proved particularly advantageous in this context is that in which the silane compound is grafted onto the material of the shaped body, after which the grafted material is shaped into a shaped body and coated with the heat-setting adhesive. The molded material is then cross-linked by the action of moisture and the cross-linking agent for the heat-curing adhesive is introduced into the hot-melt adhesive layer by diffusion.

For the purposes of the present invention, any starting materials can be used as the basis for the heat-setting adhesive, e.g. ethylene-vinyl-4-acetate copolymers, acrylates, but also the like based on polyamides, copolyamides, thermoplastic rubbers as well as polyesters or the like .

These adhesive starting materials can also be in a foamable form to guarantee a certain elasticity of the connection between a shrinking part and a bottom layer.

As cross-linking agents, the usual peroxides, such as dicumyl peroxide, cumyl tert-butyl peroxide, 2,5-dimethyl-2,5-di- (tert-butyl) -peroxyhexane or other radiol-neutral initiators such as 1,10-decane-bisulfonazide or p-chi-nondioxime, are used.

Claims (6)

1. Shrinkable material, such as a hose, a cap, a cuff or a strap, of a cross-linked starting material based on clefin polymers or olefin-blend polymers, elastomers or thermoplastic rubbers, with at least one face 5 coated with a cross-linked heat-setting adhesive, with the characterized in that at least one of the adjoining starting material layers is cross-linked after the inoculation of organosilane compounds. 2. Shrinking article according to claim 1, characterized in that the adjoining layers are cross-linked by moisture action, but with different degrees of cross-linking. Shrinking article according to claim 1, characterized in that the material of the shrinking article is cross-linked by means of peroxide or under the influence of radiation and the heat-setting adhesive by the action of moisture. 4. Shrinking article according to claim 1, characterized in that the material of the shrinking article is cross-linked by peroxide by the action of moisture and the heat-setting adhesive. 5. A method for the production of a shrinking article according to claims 1-4, characterized in that the shaped body and the adhesive layer are extruded or sprayed together. 6. A method according to claim 5, characterized in that the silane compounds are grafted onto the material of the shaped body, then the grafted material is formed into the shaped body and at the same time is coated, or subsequently, with the heat-setting adhesive, which material of the shaped body cross-linking by action of moisture and finally the cross-linking agent for the heat-setting adhesive is introduced into the melt-adhesive layer by diffusion.