DE202006020200U1 - Matrix band for dentistry - Google Patents

Abstract

Matrix band for dentistry, and in particular for use in filling therapy, comprising
- A thin, flexible and translucent composite body (11) having an inner surface (16) which serves to rest against a tooth to be filled, and
A structure (12, 70, 80, 90) connected to the laminated body (11, 61) which is plastically deformable such that the matrix band (10, 20, 30, 40, 50) retains a desired shape, and so on has a shape that at least as much light from the outside through the matrix band (10, 20, 30, 40, 50, 60) can be introduced through the filling, that the filling after removing the matrix band (10, 20, 30, 40, 50, 60) is dimensionally stable,
wherein a plurality of holes (14, 71, 81, 91) in the structure (11, 61) having a diameter of up to approximately 500 μm are distributed over the entire laminated body (11, 61), through which light is transmitted to the .. ,

Description

TECHNICAL AREA

The The present invention relates to a matrix band for dentistry, especially during filling therapy is used. A matrix band of the kind of interest here a thin, flexible and translucent layer body with an inner surface, which serves to rest against a tooth to be stuffed, about this palm the normal undestroyed To reproduce tooth shape.

BACKGROUND OF THE INVENTION

Matrix bands serve in dentistry as an aid in laying fillings in broken teeth. Is a defect in the tooth relatively small and still of hard tooth substance limited, needed the dentist usually no matrix band for laying the filling. To larger cavities in particular in the side walls of molars after drilling out the carious Fill tooth substance to be able to, so if considerable wall parts of the tooth are no longer present and this by means of filling material need to be restored be around the teeth Matrices which have the task to simulate the normal tooth shape and in a sense as external formwork for the to be introduced filling material to serve. Corresponding matrix bands are in defects of the aforementioned type an often used and valuable tool for carrying out a conservative treatment of a tooth. The matrix band is included mostly a disposable item. The necessary matrix band holder becomes but used almost indefinitely again. It should be noted that it now also matrix bands with disposable holding aids; such combinations are also intended as a disposable article. In principle, the matrix bands are basically similar to one another Stripes or a "boomerang" whose two ends are to be introduced in a holding instrument.

Depending on the type of filling material selected by the dentist different matrix bands are used. If, for example, the filling is performed in the posterior region with the aid of the material amalgam, the tooth to be treated is prepared for receiving the amalgam with the aid of a metal matrix band. A coated matrix strip of metal is for example from the US 2005/221255 known. The metal matrix strip shown herein has a coating intended to reduce the capillary action between a tooth and the matrix band. In the US 5,586,883 For example, a metal matrix tape having a gold layer is disclosed. Also the WO 2005/023135 . US 2,591,744 and US 3,842,505 reveal flexible metal matrix bands.

One such a matrix band of metal is used by the dentist with the help of Hand instruments individually cold formed and remains in the of Dentist desired Shape stable. To seal in the direction of the gum or Reach the periodontium, as far as it enters this approximal space, So the area between the teeth, enough, interdental in addition always sealed with small wedge, provided that the given tooth arrangement allows. After curing of the filling material the matrix band is removed.

Nowadays, instead of the material amalgam, more and more plastic or composite fillings are being laid. However, a matrix band made of metal is not suitable for this material, since the plastics used today, in contrast to earlier, when they were provided with an accelerator, cure via the supply of light. However, metallic matrix bands are light-tight and accordingly unsuitable. Thus, a dentist currently has to resort to a translucent matrix band made of plastic, as for example in the US 4,781,583 is disclosed.

The Kompositefüllungsmaterial is of its viscosity Soft at room temperature and easily deformable, so that it is with a dental instrument or from a tube into a cannula into the space between hard tooth substance and matrix band leaves. Therefor a time window of a few seconds is available, then reacts the plastic on the light in the room. Basically So when dealing with composite fillings, the dentist has the problem that the plastic matrix bands are not in a desired shape bring, but by the elasticity of the plastic material used always in their original Go back home shape want.

The DE 699 16 068 T2 discloses various dental articles, among which also matrix bands are to be subsumed. The matrix tape known therefrom has an optical surface which reflects light of desired wavelengths, the optical surface having an optical stack with a thickness varying over the optical surface. The optical stack comprises a plurality of layers, wherein the layers comprise at least one birefringent polymer and at least one other polymer.

In the US 5,330,353 there is disclosed a modified metal die band consisting of a strip piece of plastic and a strip piece of metal. The two strip pieces are joined together at an overlap area. An alternative embodiment of this modified metal die band comprises a plastic strip piece interposed between two metal strip pieces. Again, the respective connection takes place in an overlapping area. By means of these known modified metal matrix bands is to be achieved that the handling of the dentist is similar to metal matrix bands, but the introduction of light for curing the composite filling is possible. On the one hand there is the problem that the plastic die piece must be placed exactly in the right place, so that a light supply for composite filling is possible. On the other hand, there continues to be the problem that due to the elasticity of the plastic matrix strip piece, the matrix strip as a whole still can not be optimally handled, since it tends to be in a straight line. In addition, the production should be relatively complex and expensive, since many items are to be processed.

Also the DE 90 17 522 U1 discloses a die for dental medicine, which is in the form of a form-fitting filling of cavities and mounted on the tooth condition to allow proper curing of the introduced plastic by light, but has the same problems as the matrix band of the US 5,330,353 , So will in the DE 90 17 522 U1 proposed a window matrix having at least one translucent area. In the exemplary embodiments, a maximum of two very large translucent areas are shown in the matrix band. Also the US 2005/028791 A1 shows a window matrix similar to the DE 90 17 522 U1 ,

Finally, in the EP 0 795 302 A1 discloses a method for facilitating the creation of a precise shape of a non-metallic dental filling by means of a light-curing polymer. For this purpose, it is proposed to use a metal sheet which is tensioned around the preprepared tooth and which is partially translucent. The transparency of the metal foil mold should be ensured by the fact that the metal foil has openings, which in turn are adhesively bonded with a transparent substance filling. The breakthrough width should be at least 1 mm, the web width or web height should be at least 0.5 mm. The WO 01/43656 A1 shows a matrix band according to the EP 0 795 302 A1 , A problem of this known matrix band is that precise contouring is not possible due to the large dimensions of the apertures and the webs for the dental sector. Due to the tension forces of the matrix band, a flattening occurs in the area of the apertures, which falsifies a curvature of the original morphology. In addition, due to the web width not at any point of the matrix band hardening of a filling is possible.

PRESENTATION OF THE INVENTION

The The technical problem underlying the invention is that to provide a well-contourable matrix band that is also suitable for use at composite fillings provides good manageability and usability and relatively easy to be finished.

This technical problem is posed by a matrix band for dentistry and in particular at the filling therapy solved, that a flexible and translucent laminated body and one with the laminated body connected structure that is dimensionally stable and ductile includes. Of the has thin layered body an inner surface, formed for abutment with a filling to be provided with a tooth is. The with the laminated body Connected structure has such a shape that at least as much light from the outside can be introduced through the matrix band on the filling, that the filling after removal of the matrix band has a dimensionally stable strength. The structure is characterized by having a variety of holes with a diameter up to about 500 μm over the entire layer body distributed through which light can be incident on the filling. The structure can thus everywhere and nationwide be provided with the very fine holes on the entire matrix band.

The invention is based on the idea of creating a novel matrix band which can basically be handled like a matrix band of metal, but is so far translucent that a composite filling with the aid of the supply of light (for example, a curing lamp) are hardened in such arbitrary areas can, that after removal of the matrix band, the composite filling is dimensionally stable. By further introduction of light from the outside then, if necessary, the not yet cured areas of the composite filling or the hardened filling areas can be brought to the desired, necessary hardness. For the first time a matrix band for use in composite fillings (as well as amalgam fillings) is created, which is preformable by the dentist on the actual thin layered body, such as a plastic film, applied ductile structure as a whole like a metallic Matrizenband. In addition, the matrix band according to the invention is due to the dimensionally stable and ductile structure also better with the known holding instruments or disposable holders used. The matrix band as such can now for the first time, despite its translucency, be introduced more easily into the holding instruments or disposable holders known per se. An inventive template band is beyond that not only usable for composite fillings, but also for other filling therapies. For the first time, therefore, the advantages of known metallic matrix bands are combined with those of plastic matrix bands, and at the same time their production remains relatively simple, so that matrix bands according to the invention can also be manufactured as mass-produced products.

One Another advantage of the present invention can be that in contrast to previous plastic Matrizenbänder invention matrix bands not only in disposable holders or Disposable holders can be clamped, but also in most cases made of metal reusable holders or holders for multiple use. Previous matrix bands made of plastic film did not have sufficient strength to To be clamped metal holders. Due to the multi-layered structure but can in the matrix bands according to the invention a for clamping in metal holders or other reusable ones Holder sufficient rigidity and strength can be achieved. It It should be noted, however, that such a strength in matrix bands according to the invention not necessarily must be present. But it is advantageous if such a property is achieved.

According to one exemplary embodiment The present invention is the ductile, so plastically deformable Structure integrated into the laminate. For example, the structure in making the thin, flexible and translucent laminated body in embedded.

alternative It is in another exemplary embodiment of the present invention Invention possible, the laminated body facing away from the inner surface Outer surface with to provide plastically deformable structure. So here's the ductile structure on the outside surface of the thin layer body applied, for example by gluing, coating or Aufdamp fen. For example, dimensionally stable, ductile structures on the thin layer body through known MVD method, PVD method, etc. on the outside be applied.

• a) in Verbindung mit dem Schichtkörper soll sie eine die Handhabbarkeit vereinfachende „Festigkeit" haben, also verformbar sein, aber die gewünschte Form halten,
• b) es muss durch Löcher oder Schlitze etc. in der Struktur genügend Licht dringen können, um die vom Matrizenband umschlossene Füllung zumindest teilweise anhärten zu können, so dass nach dem Abnehmen des erfindungsgemäßen Matrizenbandes die Füllung ihre Form beibehält; u.U. kann auch das für die Struktur verwendete Material eine lichtdurchlässige Eigenschaft haben, so dass Löcher etc. in der Struktur auch ganz- oder teilweise entfallen können.

For the sake of good order, it should be noted that the term "structure" in the sense of the present invention means any kind of material layer such as, for example, a film, a woven fabric, a knit fabric to be subsumed.

• a) in conjunction with the composite body, it should have a simplifying the handling "strength", so be deformable, but keep the desired shape,
• b) it must be able to penetrate through holes or slits etc. in the structure enough light to at least partially harden the filling enclosed by the matrix band, so that after removal of the matrix band according to the invention, the filling retains its shape; In some circumstances, the material used for the structure may also have a translucent property, so that holes etc. in the structure may also be omitted in whole or in part.

As mentioned earlier, may in an exemplary embodiment of the present Invention of the composite body consist of a plastic film. All come as plastics known for translucent Matrizenbänder Plastics in question. In particular, a plastic film is made Polyethylene or polyester usable.

In an exemplary embodiment According to the present invention, the structure is lattice, mesh, lamella or slit-shaped. This embodiment of the structure has the advantage that the translucent composite only is covered in partial areas and thereby light from outside through the thin one layer body through to the composite filling can be directed and thus the filling at least in some areas hardened becomes. At the same time, this type of embodiment of the structure becomes a desired Stiffness and shape retention, but also deformability of the matrix band achieved as a unit (in conjunction with the thin layered body). The darkened filling areas of the structure can be after removal of the matrix band according to the invention cure gently. Also In this embodiment, it is again possible, both reusable known template holder as well as known disposable holder to use.

As already mentioned, the structure is provided with a plurality of holes through which the Light can fall on the plastic film. For example the holes produced by laser of a metal foil. Alternatively it is possible, the holes for example by punching a metal foil or already producing the metal foil with holes embody. So can holes with a diameter of 50 microns up to 500 μm or more. The distances of the holes (from center to center) can for example, in the range of 50 microns to 500 microns. An exemplary Embodiment has holes with a diameter of about 100 to 200 microns, the hole spacing is thereby approx. 300 μm. For example, the web between two holes has a width of about 100 microns to 200 microns.

In a further exemplary embodiment of the present invention, the number and / or the size of the holes in the structure are chosen such that only light of a predetermined wave Length or a certain wavelength range can pass through the matrix band to the filling. In particular, therefore, a wafer-thin metal grid or strip structure can be created, which only lets through light with a wavelength that leads to hardening of the filling material. As a result, light from other light sources in the treatment room would be prevented from reaching the composite filling, so that unwanted hardening of the filling is prevented.

A exemplary embodiment of the present invention comprises as a plastic, ductile structure a perforated or perforated one Metal band.

A alternative embodiment in a further embodiment of a matrix band according to the invention includes a on the outer surface of the layer body vapor deposited or applied by other coating methods Metal grid.

In an exemplary embodiment According to the present invention, the structure consists of a gold or copper alloy.

A exemplary embodiment a matrix band according to the invention comprises a flexible and translucent plastic film having an inner surface which for attachment to one with a filling To be provided tooth and an outer surface on which a metal structure is applied. The metal structure is malleable but retains a desired one Form of the matrix band at. The metal structure has one Variety of holes with a diameter of up to about 500 microns, at least that much Light from outside inserted through the matrix band at any point on the filling can be and the stuffing after removal of the matrix band has a dimensionally stable strength.

In a further exemplary embodiment of a matrix band according to the invention the metal structure is on the side facing away from the outer surface of the plastic film outside with a translucent protective coating Mistake.

For example the protective coating is made Polyethylene.

BRIEF DESCRIPTION OF THE DRAWINGS

in the The following are for further explanation and for better understanding several embodiments of the present invention with reference to the accompanying drawings described in more detail. It shows:

1 a top view of a first exemplary embodiment of a matrix band according to the invention,

2 a top view of a second exemplary embodiment of a matrix strip according to the invention,

3 a top view of a third exemplary embodiment of a matrix strip according to the invention,

4 a top view of a fourth exemplary embodiment of a matrix band according to the invention,

5 a cross-sectional view of an exemplary embodiment of a matrix strip according to the invention,

6 a cross-sectional view of another exemplary embodiment of a matrix strip according to the invention,

7 a cross-sectional view of another exemplary embodiment of a matrix strip according to the invention with embedded plastic structure,

8th a schematic plan view of a dimensionally stable, ductile structure with circular holes,

9 1 is a schematic plan view of another exemplary embodiment of a dimensionally stable, ductile structure with a grid structure and square holes,

10 a schematic plan view of another exemplary embodiment of a dimensionally stable, ductile structure with slot-shaped holes.

DESCRIPTION OF EXEMPLARY EMBODIMENTS THE PRESENT INVENTION

The 1 shows a first exemplary embodiment of a matrix strip according to the invention 10 , The associated matrix band cross section is in the 5 shown.

As in the 1 and 5 can be seen, this embodiment comprises a matrix band according to the invention 10 a thin plastic film 11 , on which a grid or net-shaped structure 12 on the outside 15 the plastic film 11 is laminated. The grid-shaped structure 12 consists of the grid forming webs 13 and holes 14 , The bridges 13 are here from a dimensionally stable, but duk Tilen metal such as a copper or gold alloy formed. The metals or metal alloys used in previous metal matrix bands are also suitable for this structure 12 usable. The inside 16 The plastic film is smooth and serves for application to a tooth to be filled. For the sake of good order, it should be noted here that the metal structure shown 12 also by vapor deposition or another coating process firmly with the plastic film 11 can be connected.

Another exemplary embodiment of a matrix strip according to the invention 20 is in the 2 shown. This matrix band according to the invention 20 is different from that in the 1 shown matrix band only in the outline. The layer structure of this matrix band 20 is otherwise identical to the one in the 5 cross section shown. To avoid unnecessary repetition, with regard to details of the layer structure of the matrix band according to the invention 20 to the above remarks to the 5 directed.

The 3 shows a third exemplary embodiment of a matrix band according to the invention 30 , On the one hand, this matrix band according to the invention differs 30 in its outline of the previously described matrix bands according to the invention 10 . 20 , On the other hand is the metal structure 31 to the in the 1 and 2 shown embodiments of matrix bands 10 . 20 different. Here is the metal structure 31 formed with a larger "mesh size" than the structure 12 according to the embodiments inventions dungsgemäßer matrix bands 10 . 20 as they are in the 1 and 2 are shown. Again, however, the metal structure shows 31 this embodiment of a matrix band according to the invention 30 Stege 13 on, which are perpendicular to each other and square holes 14 form, through the light from the outside through the underlying plastic film 11 and can be passed through them on the filling to be hardened.

The 4 shows a further exemplary embodiment of a matrix band according to the invention 40 , This matrix band 40 in turn, according to the present invention, consists of a thin plastic film 11 on which a laser-provided with a plurality of circular holes metal foil 41 is laminated. This metal foil 41 forms the ductile but dimensionally stable structure. The holes 42 are in the 4 shown only schematically.

The Indian 6 shown exemplary cross section of another embodiment of a matrix band according to the invention 50 is different from that in the 5 shown cross section only in that on the metallic structure 12 a protective coating 51 is applied. The protective coating can for example consist of a plastic such as polyethylene and is translucent. For example, due to the nature of the coating material, inter alia, the wavelength on the inside of the matrix band 50 arrive, be predetermined.

Another exemplary cross-sectional configuration of a matrix band according to the invention 60 is in the 7 shown. This matrix band 60 consists of a thin plastic film 61 into which a metallic structure 12 is embedded. In contrast to the previously explained embodiments of the invention Matrizenbänder here is the metallic structure 12 not laminated on a plastic film, but embedded in it. Otherwise, however, corresponds to the structure of the metallic structure 12 the structure according to the 5 and 6 ,

In the 8th to 10 are further exemplary embodiments of metallic structures 70 . 80 . 90 shown that give a dimensional stability to a matrix band according to the invention, but still allow its deformable. In addition, these structures in turn ensure the necessary and desired light transmission.

The in the 8th shown schematic plan view of an exemplary embodiment of a structure 12 includes a thin plastic film with a multitude of holes 71 which were introduced by laser in which in the metal foil.

The 9 shows a structure 80 , which was produced by vapor deposition of a metal in mesh or lattice structure on a plastic film. Here is the metallic structure 80 with bars 81 and diamond-shaped holes 82 educated.

Finally, the shows 10 a structure 90 made of metal foil, in the slot-shaped holes 91 introduced by, for example, laser or punching.

For the sake of good order, it should be noted that the structures explained above, as well as the cross sections according to FIGS 5 to 7 can be used for all outlines of matrix bands according to the invention, as for example in the 1 to 4 are shown. Of course, according to the invention Matrizenbänder also other outline shapes than those in the 1 to 4 have shown. In particular, any desired outline shapes can be used, which are also known in the prior art.

An inventive template band 10 with the in the 5 shown layer structure and in of the 1 Outline shown is produced by that on a plastic film 11 a prefabricated very thin metal grid 12 is glued on. This process is preferably done by both the plastic film 11 as well as the metal structure 12 in the form of endless bands brought together and connected together. Thereafter, but need not be punched out of the formed laminate or otherwise cut out the desired outline shape, for example by laser cutting.

If a coating, as in the 6 is shown, this is preferably applied before cutting out of the previously prepared composite layer, for example by spraying, vapor deposition or other coating methods.

For the production of in the 7 shown cross-sectional shape of a matrix band according to the invention 60 becomes when producing the plastic film 61 the prefabricated metal structure 12 integrated in the film production process and thereby embedded.

For example, the metal structure has 12 a thickness of 20 microns to 200 microns (microns). In particular, a copper foil may have a thickness of, for example, 50 μm to 100 μm (microns). The plastic film has a thickness of, for example, 20 microns to 200 microns (microns), in particular 100 microns (microns). The coating is, if necessary, up to 100 μm (microns) thick. The holes according to the structure 70 as they are in the 8th is shown, preferably have a diameter of, for example, 100 microns to 200 microns (microns). The in the 9 shown holes 82 the structure 80 preferably have a side length of 50 microns (microns) to 200 microns (microns) The slots 91 in the metal foil 90 according to the 10 preferably have a width of 20 microns to 200 microns (microns) and a length of 40 microns to 400 microns (microns). But it is also possible to provide smaller or larger holes or slots.

For example is a matrix band according to the present Invention manufactured as follows. A metal foil such as a copper foil with a thickness of about 50 microns is in a laser device at a rate of, for example, 1500 mm / s as continuous Ribbon unwound from a reel. It will be done by means of a laser, which operates at a frequency of 5 kHz, holes of a size of, for example 100 μm to 200 microns in the Branded copper foil. Depending on requirements, thus the entire film width with holes be provided. This foil strip can then be additionally heated (for example by heating rollers). Then a running on the current, heated copper foil Polyethylene film supplied with, for example, a thickness of 100 microns. By passing this layer composite of heated Copper foil and polyethylene film between calender rolls, that is to say pressure rolls, the polyethylene film is at least partially in the holes of Pressed copper foil. After cooling, a sufficiently strong layer composite is achieved.

Then For example, the laminate can be cut to the desired dimensions for matrix bands be (for example by means of laser). The individual matrix bands become then hygienically wrapped in foil. As already mentioned, is also a bonding of the layers possible. It would also be possible a combination of gluing and the described pressure lamination.

Claims (18)

Matrix band for dentistry and in particular for use in filling therapy, comprising - a thin, flexible and translucent composite ( 11 ) with an inner surface ( 16 ), which serves for engagement with a tooth to be filled, and - one with the composite body ( 11 . 61 ) connected structure ( 12 . 70 . 80 . 90 ) which is plastically deformable such that the matrix band ( 10 . 20 . 30 . 40 . 50 ) maintains a desired shape and which has a shape such that at least as much light from outside through the matrix band (FIG. 10 . 20 . 30 . 40 . 50 . 60 ) can be introduced through the filling that the filling after removal of the matrix band ( 10 . 20 . 30 . 40 . 50 . 60 ) is shaped, with a plurality of in the structure ( 11 . 61 ) existing holes ( 14 . 71 . 81 . 91 ) with a diameter of up to approximately 500 μm over the entire layered body ( 11 . 61 ), through which light can be incident on the filling. Matrix band according to claim 1, characterized in that the structure ( 12 ) in the laminated body ( 61 ) is integrated. Matrizenband according to claim 1, characterized in that the laminated body ( 11 ) one of the inner surface ( 16 ) facing away from outer surface ( 15 ) and the structure ( 12 . 70 . 80 . 90 ) on the outer surface ( 15 ) is applied. Matrizenband according to any one of the preceding claims, characterized in that the laminated body is a plastic film ( 11 . 61 ). Matrix band according to one of claims 1-4, characterized in that the structure ( 12 . 80 ) is grid or net shaped. Matrizenband according to claim 1, characterized in that the holes ( 14 . 71 . 81 . 91 ) are made by laser of a metal foil. Matrizenband according to claim 1 or 6, characterized in that the number and / or size of the holes ( 14 . 71 . 81 . 91 ) in the structure ( 12 . 70 . 80 . 90 ) and / or the material of the plastic film ( 11 . 61 ) are selected so that only light of a predetermined wavelength through the matrix band ( 10 . 20 . 30 . 40 . 50 . 60 ) can penetrate through to the filling. Matrix band according to one of Claims 1 to 7, characterized that the structure is a perforated metal band A matrix band according to any one of claims 1-8, characterized in that the structure is a structured coating on the outer surface ( 16 ) of the composite body ( 11 ) applied metal grid ( 11 ). Matrizenband according to any one of claims 1-8, characterized in that the structure by vapor deposition of a plastic film ( 11 ) produced metal grid ( 12 . 70 . 80 . 90 ). Matrix band according to one of claims 1-10, characterized in that the structure ( 12 . 70 . 80 . 90 ) consists of a gold alloy. Matrix band according to one of claims 1-10, characterized in that the structure ( 12 . 70 . 80 . 90 ) consists of a copper alloy. Matrix band for use in dentistry, in particular in filling therapy, comprising - a flexible and translucent plastic film ( 11 ) with an inner surface ( 16 ), which serves to rest against a tooth to be filled, and one from the inner surface ( 16 ) facing away from outer surface ( 15 ), and - one on the outside ( 15 ) of the plastic film ( 11 ) metal structure ( 12 . 70 . 80 . 90 ) which is plastically deformable such that the matrix band ( 10 . 20 . 30 . 40 . 50 ) maintains a desired shape as a whole, and a plurality of holes ( 14 . 71 . 81 . 91 ) having a diameter up to about 500 microns, so that at least as much light from the outside through the matrix band ( 10 . 20 . 30 . 40 . 50 ) can be introduced through the filling and the filling is dimensionally stable after removing the matrix band. Matrizenband according to claim 13, characterized in that the metal structure ( 12 . 70 . 80 . 90 ), on the outside surface ( 15 ) of the plastic film ( 11 ) facing away from the outside with a translucent protective cover ( 51 ) is provided. Matrix band according to one of claims 3-9, 13 or 14, characterized in that the structure ( 12 . 70 . 80 . 90 ) on the laminate ( 11 ) is glued. Matrizenband according to claim 14 or 15, characterized in that the metal structure ( 12 . 70 . 80 . 90 ) with the plastic film ( 11 ) is connected by pressing. Matrix band according to one of the preceding claims, characterized in that the spacings of the holes ( 14 . 71 . 81 . 91 ) up to about 500 microns. Matrizenband according to any one of the preceding claims, characterized in that the ratio web width between two adjacent holes ( 14 . 71 . 81 . 91 ) to hole diameter between 1/5 and 18.