Stock material or miscellaneous articles – Web or sheet containing structurally defined element or... – Adhesive outermost layer
Reexamination Certificate
1999-09-09
2002-05-28
Zirker, Daniel (Department: 1771)
Stock material or miscellaneous articles
Web or sheet containing structurally defined element or...
Adhesive outermost layer
C428S040100, C428S354000, C428S317300, C428S3550BL, C248S205300, C206S411000
Reexamination Certificate
active
06395389
ABSTRACT:
The invention relates to an adhesive tape strip for a rereleasable adhesive bond which can be removed from a bonded joint by pulling in the direction of the bond plane.
A common use of transparent self-adhesive films is the temporary fixing of very light, usually flat articles, such as very small pictures, postcards, posters, drawings, decorations, etc., in the home and office sector. In this application, self-adhesive films are often employed as an alternative to hooks, thumb tacks and pins. Advantages of self-adhesive tapes over the latter fastening means include their handling safety (no risk of injury), their extensive invisibility (through the high transparency of the self-adhesive films), the possibility of fixing even to solid surfaces through which pins cannot or should not pass, and the possibility of being able to detach an adhesive bond after it has been produced, from sufficiently firm substrates, nondestructively and without residue, by peeling off the adhesive film. A disadvantage is that the adhesive films are often impossible to redetach from unfirm substrates, such as wallpapers, paper, board, painted walls, etc., without destroying the substrate. Adhesive films of this kind are on the market as tesa-film® or Scotch tape®.
Elastically or plastically highly extensible self-adhesive tapes which can be redetached nondestructively and without residue by stretching essentially in the bond plane (by what is known as stripping), even from in some cases highly sensitive bonding substrates, such as papers or coated wood-chip wallpaper, for example, are described in U.S. Pat. No. 4,024,312, DE 33 31 016, WO 92/11332, WO 92/11333, DE 42 22 849, WO 95/06691, DE 195 31 696, DE 196 26 870, DE 196 49 727, DE 196 49 728, DE 196 49 729 and DE 197 08 366. They are frequently employed in the form of adhesive tape strips having a preferably nonadhesive grip-tab region from which the detachment process is initiated particular applications and embodiments of such self-adhesive tapes can be found, inter alia, in DE 42 33 872, WO 94/21157, DE 44 28 587, DE 44 31 914, WO 97/07172, DE 196 49 636 and WO 98/03601. The products described in the abovementioned patents, however, are all designed for the adhesive bonding of moderately heavy to heavy articles, and so must have high bond strengths. A very large proportion of the fixing operations desired in the home and office sector, however, relate as described above to small and very small articles, such as, for instance, the fastening of very small pictures, postcards, photos, drawings, and articles typically attached to notice boards, for the fastening of which it has conventionally been sufficient, in many cases, to use simple self-adhesive films, pins, hooks and thumb tacks. For the abovementioned applications, the self-adhesive tapes which have been on the market to date and are described in the abovementioned patents, and which are redetachable by stretching in the bond plane, are therefore relatively unsuitable, as a result, inter alia, of their inconvenient handling and of the very high costs per application, which is a considerable barrier to their mass application. Thus it is found in practice that advantageous adhesive tapes, especially for fixing small articles, are those which have very low stripping forces in order to permit easy and simple detachment—including detachment by the hands of children, for example—and which are, in addition, adapted in shape and size to the articles to be bonded.
The object of the present invention was therefore to provide adhesive tape strips which are suitable for the adhesive bonding of small articles and at the same time are in particular configured such that, in the course of the detachment process, they have no tendency to tear and at the same time also facilitate the stripping operation, especially for individuals who are not so strong, such as women, children and the elderly.
One possibility for obtaining more readily strippable (lower stripping forces) and also less expensive self-adhesive tapes and adhesive tape strips is to reduce their thickness. As indicated in DE 33 31 016 C2 (p. 2, line 50 et seq.), the thickness of the adhesive tape strips described therein is of critical importance to the detachment process (detachment by stretching in the bond plane). The peel force required for detachment is composed of the force required for peeling the adhesive tape from the bond substrate and the force which must be expended in order to deform the adhesive tape. The latter force is approximately proportional to the thickness of the adhesive tape; the former force can for simplicity, within the thickness range under consideration, be assumed to be constant. The tensile strength of such an adhesive tape, on the other hand, increases in direct proportion to its thickness. It follows from this that for self-adhesive tapes in accordance with DE 33 31 016 C2 the tensile strength becomes smaller, below a certain thickness, than the peel force, with the consequence that correspondingly thin products can no longer be released from the substrates by stretching in the bond plane but instead tear when an attempt is made to release them in this way. The problem described in DE 33 31 016 C2 can be transferred, mutatis mutandis, to strippable self-adhesive tapes with other product constructions, an example being multi-layer systems.
A second possibility for obtaining less expensive self-adhesive tapes or self-adhesive tape strips with simultaneously low stripping forces by simple size variation consists in selectively reducing the adhesive tape width. With adhesive tapes of very low width it is observed, surprisingly, that tearing or substrate damage during the detachment process, events which occur readily, for example, at the end of the detachment process (i.e., when detaching the last few mm of the respective adhesive tape strip) are absent, or present only to a significantly reduced extent, in practical use in comparison to the analogous but wider adhesive tape strips. This is so in particular even when the adhesive strips used are not shaped in accordance with DE 44 28 587. The abovementioned property is particularly advantageous when the intention is to utilize adhesive tapes having very soft and hence usually very pressure-sensitively adhesive (very tacky) adhesive compositions and/or self-adhesive tapes whose stretchability is low, since in both cases experience has shown that there is a particularly pronounced tendency towards sharp increases in stripping force at the end of the detachment process. Adhesive tape strips which possess high pressure-sensitive adhesion offer the advantage that high bond strengths can be realized even with low application pressures. Because of the very great lengths by which a strip must be extended for the detachment process, high strip elongations are often perceived as disadvantageous in practice. In addition, in the extended state, the adhesive strip to be detached can easily stick to one of the substrate surfaces, if, as a consequence of its great length in the stretched state, the adhesive strip is unable to be detached continuously in one piece, and so the detachment process is interrupted. However, adhesive strips bonded under stress in this way tear with particular ease when the attempt is made, finally, to remove them from the bonded joint.
One cause of the markedly lower tendency towards instances of tearing and substrate damage when using the adhesive tapes of the invention (very narrow adhesive tape strips) in fact appears to be that, as a consequence of the resultant very low stripping forces, the separation rates employed by the user are significantly higher in comparison to their previous (wider) counterparts. The more rapid removal of the adhesive tape strips from the bonded joint by the user in comparison to the analogous but wider adhesive tape strips consistently results in the greater stretching of such strips during the detachment process. This brings about a greater reduction in the pressure-sensitive adhesion of the adhesive strips on removal fro
Krawinkel Thorsten
Lühmann Bernd
tesa AG
Zirker Daniel
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