DE102010036107A1 - Thermoforming film or plate useful for producing an orthodontic splint or a mouth guard splint and dental thermoforming technique, comprises silicone blocks and organic blocks of a polymer material, preferably elastomeric silicone copolymer - Google Patents

Abstract

Thermoforming film or plate comprises silicone blocks and organic blocks of a polymer material, preferably of the type Geniomer(RTM: Thermoplastic Elastomeric Silicone Copolymer). An independent claim is also included for producing a double-layer thermoforming film or plate comprising (a) surface activation of the hard layer, preferably by corona treatment or plasma treatment; and (b) laminating the flexible layer and the surface activated hard layer in a hot press.

Description

The invention relates to a thermoforming sheet or plate, in particular for the production of an orthodontic splint or a mouthguard, as well as the use of such thermoforming foil or plate for the dental thermoforming technique. Moreover, the invention relates to a method for producing a two-layer thermoforming sheet or plate, which is intended for use in the dental thermoforming technique.

Thermoforming films or plates are well known in dental technology for the production of dental splints. Here, the thermoforming sheet or plate is heated and deep-drawn in the softened state within a thermoforming device on a dental impression model, which is usually made of gypsum. After cooling, the deep-drawn film or plate can be removed as a molded rail from the impression model and perform the fine processing.

In this way, different dental splints can be produced. To think here is on orthodontic splints, which correct or stabilize the tooth position, to mouthguards, which give the wearer in the practice of shock or fall-prone sports security, as well as to so-called crunching bars, which prevent a Aufweianderknirschen the teeth during sleep.

The previously known rails consist of a thermoplastic plastic film material, in particular of materials such. As polycarbonate, polyethylene, polyethylene terephthalate or polyurethane. In particular, in this case, two-layer composite films are known which have a hard side and a soft side. The hard side, which gives stability to the dental splint, consists of polycarbonate or polyethylene terephthalate, while the soft side of the foil or plate consists of thermoplastic polyurethane.

Such a two-layered composite film is placed over the molding model during the deep-drawing process so that the soft side of the film forms the later inner side of the dental rail, which is in contact with the teeth and possibly the gums. The hard outside is remote from the teeth and hard enough to manipulate or stabilize the teeth in position and / or to protect them from external influences such as theft. B. punches to protect.

A problem with the known rails is that the soft side of polyurethane over time has discolorations that come about, for example, by the enjoyment of coloring drinks, such as tea or coffee. Since the wearer does not tolerate such cosmetic impairment, these splints are not suitable for prolonged use.

Furthermore, in the state of the art, dental splints are known, which have polymer mixtures which connect hard and soft components to one another.

The publication US 2005/0100853 A1 describes a thermoplastic film from which dental splints can be formed to correct the position of the teeth. The material of the film is a mixture of thermoplastic polymers. These rails can be made in one or more layers from blends which may include polyethylenes, polypropylenes, polyamides, polyesters and many other polymers. As particularly preferred, this document emphasizes mixtures of polycarbonates and polyesters, which z. PC-PCCD, PC-PETG, PC-PET, PC-PBT, PC-PCT, PC-PCTG. Furthermore, in this document, the admixture of soft ingredients such. B. polydimethylsiloxane disclosed.

US 2006/0078841 A1 and US 2006/0078688 A1 disclose a dental splint for alignment of the teeth and a method of manufacturing the splint which involves coating and laminating with transparent materials. As transparent materials, soft materials such as silicones are proposed. However, since silicones are not deep-drawable, there is the problem that the silicone layer of the dental rail is indeed deformed during deep drawing of the dental splint, but does not assume the exact shape of the impression model. As a result, the dental splint is not exactly adapted to the tooth shape or the jaw of the wearer.

It is therefore an object of the invention to provide a thermoforming sheet or plate for producing an orthodontic splint or mouthguard, which contains a soft and at the same time thermoformable material and, moreover, retains its transparency even with prolonged use and does not tend to discoloration.

This object is achieved by the invention in that the deep-drawing film or sheet containing a silicone blocks consisting of polymer blocks or organic material, in particular of the type Geniomer ^®. This material is marketed by Wacker Chemie AG under the brand name Geniomer or Tectosil (see www.geniomer.com). In question coming polymer material is z. B. in the published patent application DE 10 2008 002 075 A1 specified. This material of silicone blocks and organic blocks has hitherto been used, inter alia, in the field of the production of solar cells. The Advantages are in particular an excellent heat and UV resistance. In addition, the material provides a permanent elasticity and low biofilm formation and also a low tendency to discoloration. In addition, the polymer material offers the thermoforming properties of the thermoforming process and the very rapid physical crosslinking by cooling. In addition, no additions of catalysts are required for the material.

There are various types of geniomers on the market, which are in principle all suitable for the present invention. In particular, the type genicomer 80 is mentioned here, but any other type which has stable material properties at different temperatures is also suitable. In principle, those geniomer types which have been developed for the extrusion prove to be particularly suitable.

The Geniomer ^® polymer material is a copolymer of silicone and urea. The urea bridges give the silicone material its thermoplastic deformability and can thus be used for the dental thermoforming technique. The material can be formed by extrusion or injection molding into semi-finished or finished plates that are suitable for use in dental thermoforming equipment.

Particularly preferably, the thermoforming sheet or plate contains a copolymer prepared from diisocyanate and α, ω-aminosiloxane. These two substances are used as starting material for producing the Geniomer ^® -Materials, wherein semi-finished product can be produced in the form of flat goods or directly prefabricated geometries by means of thermal shaping of granules. Common methods are plate extrusion and injection molding. For more detailed representation of the Geniomer ^® used for the present invention was made to the document DE 10 2008 002 075 A1 directed. The disclosed therein features of the polymer material are hereby incorporated as features of the invention.

The two constituents of the polymer material, diisocyanate and α, ω-aminosiloxane, are preferably formed either as an alternating structure of diisocyanate and α, ω-aminosiloxane or as a graft structure of diisocyanate and α, ω-aminosiloxane. Due to the nature of the structure of the copolymer, the mechanical properties of the material can be adapted to the respective requirements. In particular, this can increase or decrease the flexibility of the material.

An embodiment of the invention provides that the thermoforming sheet is produced in one layer from the previously known material.

Alternatively, a further embodiment provides that the thermoforming sheet or plate is a two-layer composite arrangement, wherein a first soft layer containing a silicone blocks and organic blocks existing polymer material and a second hard layer contains a thermoplastic resin of greater hardness, in particular polycarbonate or polyethylene terephthalate. The starting material for the silicone blocks may in turn be diisocyanate, the starting material for the organic blocks then being α, ω-aminosiloxane.

This composite according to the invention between a soft layer and a hard layer improves the wearing comfort of the dental splint by improving the pressure distribution within the splint and an improved grip of the dental splint on the teeth. Thus, the soft layer on the inside of the dental rail can improve the comfort for the wearer, while the outer hard layer absorbs impacts from the outside and dissipates them distributed over the expansion of the soft layer. Since according to the invention, the soft layer of the dental rail consists of a thermoplastic material, this adapts optimally to the tooth surface during deep drawing. As a result, it is not as in the prior art to insufficient contact between the teeth and the rail, but the teeth sit instead best possible in the surrounding structure of the tooth rail. This also improves the grip of the splint on the teeth. This is particularly advantageous in the case of mechanical effects such as occur in the straps of sports mouth guards, crunch bars or snore therapy rails.

For producing a two-layer thermoforming film or sheet, the invention provides a method which comprises the method steps surface activation of the hard layer, in particular by corona treatment or plasma treatment, and lamination of the soft layer and the surface-activated hard layer in a hot press. Here, the surface of the harder thermoplastic material, for. As the polycarbonate or polyethylene terephthalate, before the hot-joining, for example by means of a plasma jet (so-called corona treatment) activated in order to achieve a better bonding of the two layers. Following the plasma treatment of the hard layer, the hot lamination takes place in a hot press. Here, the soft layer is connected to the plasma-activated hard layer. The material produced in this way combines the material-technical advantages of the materials used. In practice, this particular lamination process creates one over the prior art improved composite of both layers. The thermoforming sheet or sheet produced by the laminating method can be applied to the thermoforming apparatus known from the prior art as a conventional single-layer thermoforming sheet or sheet. Since both the soft and the hard layer are deep-drawable, a high-precision impression result can be achieved.

An embodiment of the invention is explained in more detail below:
To produce a two-ply thermoforming film or plate, a single-layer thermoforming sheet or plate of a hard thermoplastic material such. As polycarbonate or polyethylene terephthalate and a single-layer thermoforming sheet or plate from the soft polymer material Geniomer ^® Wacker Chemie AG used. The sheet or plate made of polycarbonate or polyethylene terephthalate is the hard layer for the two-layer composite, while the softer Geniomer ^® the soft layer of the composite assembly.

To produce the composite, the polycarbonate or polyethylene terephthalate is activated by means of a plasma jet. Subsequently, the activated side of the hard layer is placed on the soft layer and connected in a hot press by lamination. After cooling the composite assembly, the two-ply thermoforming sheet or plate may be used within a conventional thermoforming machine. Here, the two-layer thermoforming sheet or plate is placed with its soft layer on the impression model and formed by means of thermoforming process to a dental splint.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• US 2005/0100853 A1 [0008]
• US 2006/0078841 A1 [0009]
• US 2006/0078688 A1 [0009]
• DE 102008002075 A1 [0011, 0014]

Claims (9)

Thermoforming sheet or plate, in particular for producing an orthodontic rail or a mouth guard rail, characterized in that the deep-drawing film or sheet consisting of a silicone blocks and organic blocks polymeric material, in particular of the type Geniomer ^® contains. Deep-drawing film or plate, in particular for producing an orthodontic splint or a mouthguard splint, characterized in that the thermoforming foil or plate contains a copolymer prepared from diisocyanate and α, ω-aminosiloxane. Thermoforming sheet or plate according to claim 2, characterized in that the copolymer has an alternating structure of diisocyanate and α, ω-aminosiloxane. Thermoforming film or sheet according to claim 2, characterized in that the copolymer has a graft structure of diisocyanate and α, ω-aminosiloxane. Thermoforming sheet or plate according to one of claims 1 to 4, characterized in that the thermoforming sheet or plate is a two-layer composite assembly, wherein a first soft layer containing a silicone blocks and organic blocks existing polymer material and a second hard layer, a thermoplastic resin of greater hardness, in particular Polycarbonate or polyethylene terephthalate. Thermoforming sheet or plate according to one of claims 1 to 4, characterized in that the thermoforming sheet or plate is a two-layer composite assembly, wherein a first soft layer contains a prepared from diisocyanate and α, ω-aminosiloxane copolymer and a second hard layer, a thermoplastic resin larger Hardness, in particular polycarbonate or polyethylene terephthalate contains. A process for producing a two-layer deep-drawing film or sheet according to claim 5 or 6, which comprises the process steps Surface activation of the hard layer, in particular by corona treatment or plasma treatment, - Lamination of the soft layer and the surface-activated hard layer in a hot press includes. Use of a group consisting of silicone blocks and organic blocks polymeric material, in particular of the type Geniomer ^®, for dental deep-drawing technology. Use of a copolymer prepared from diisocyanate and α, ω-aminosiloxane for the dental thermoforming technique.