EP1601304A1 - Method for producing a metallic dental implant and a blank for carrying out said method - Google Patents

Abstract

The invention relates to a method for producing a metallic dental implant, to a blank, an intermediate body and a binder for producing said implant. The inventive method consists in obtaining a blank consisting of a solid powder metaliferous mixture, in processing said blank in such a way that the intermediate body is produced, and in treating said intermediate body in order to obtain desired properties of the dental implant material.

Description

Sirona Dental Systems GmbH

- 1 - Description

Process for producing a dental prosthetic item from metallic materials and blank therefor

TECHNICAL FIELD The invention relates to a method for producing a dental prosthetic item from metallic materials, as well as a blank and a green body and a binder for producing the dental prosthetic item from metal.

The advantages of metallic frameworks for dental prostheses are, compared to ceramics, their higher ductility and their lower sensitivity to tensile stresses. This fact is used to realize a more delicate design of the dental prosthetic items with reduced wall thicknesses. In addition, simpler shapes and types that require little manual skill can be allowed for the preparation. In addition, such tooth replacement parts can be fixed in place with cements in the tooth. In the eyes of the dentists, handling them appears simpler and more robust compared to adhesive technology. State of the art

A large number of metallic alloys are used in dental technology for the manufacture of crowns and bridges. Caps and frameworks or complete restorations are made from these metals using casting processes using the lost shape method. These are then either used directly or, if necessary, veneered with ceramic or plastic.

In addition to this traditional method, it is known that such alloys can also be processed with CAD / CAM machines. The material properties of this Sirona Dental Systems GmbH

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However, alloys place considerable demands on such processing machines with regard to rigidity, the drives and the tools. In their entirety, these requirements lead to a machine that comes close to the size and price of conventional CNC machines and can only be financed by a few dental laboratories and dentists.

EP 0 214 341 discloses a method for producing a metallic denture, in which a mixture of metal powders with a mixing liquid is prepared to a spreadable mass and is sintered. The metal powder mixture is modeled on a model serving as a firing support and is sintered on the model. Essentially the same technique is described in EP 0 373 380 A2. In the field of dental ceramics, it is known from DE 199 30 564 AI to emboss a ceramic blank from a powdered ceramic raw material, to give this ceramic blank an ablation and / or outside contour by machining by machining and to give the machining ceramic green sheet a high strength Sintered ceramic molding. The ceramic material is selected so that a pressing aid is used which approximately compensates for the expected sintering shrinkage during sintering.

DE 199 38 144 AI discloses a method for producing dentures from a presintered blank in a processing machine, in which the blank has a raw breaking strength of 15 to 30 MPa. This blank is processed by milling, grinding or eroding. The green body can be converted into a shrinkage-adapted, enlarged model of the final denture using suitable work measures. This can in particular Sirona Dental Systems GmbH

- 3 - which are done using a CAD / CAM process. Then it is brought to its final dimensions by sintering.

Another route is shown in DE 199 01 643 A1, in which a molded body is built up in layers from a sinterable powder by exposing each layer of the powder to an energy of a laser beam that leads to local sintering.

EP 0 630 622 A2 discloses the fundamental problem of processing high-strength ceramic or metallic dental prostheses, a ceramic dental prosthesis in particular being disclosed.

In general, ceramic sintered materials have the disadvantage that with a shrinkage of 25%, a comparatively large volume has to be processed by the processing machine.

The object of the invention is to provide a tooth replacement part made of metallic materials and to propose a method which changes the material properties of the material in such a way that it can be processed in a machine designed for processing dental ceramics.

Presentation of the invention

The invention is based on the knowledge that the grinding of a preliminary stage and the subsequent aftertreatment, eg. B. by sintering with shrinkage, even with a metallic denture leads to the goal.

According to the invention, the method for producing dental prosthetic items from metallic materials consists in that a molded from a metal-containing powder mixture Sirona Dental Systems GmbH

- 4 - and solidified blank is provided, that the blank is machined into an intermediate body and that in a third step, an aftertreatment of the intermediate body takes place with which the desired material properties of the dental prosthetic item are achieved.

The invention is based on the fact that it is not the metallic material with its final material properties that is itself processed, but a preliminary stage thereof. This preliminary stage of the material is strengthened by binders that are later removed and / or by pressure or temperature compaction, so that a sufficiently solid blank is provided. The properties of the preliminary stage are set in such a way that the workpieces are precisely shaped and easy to handle, referred to here as blanks.

The procedure according to the invention breaks with the notions customary for the production of dentures from metallic materials, according to which either the casting or the machining in an NC machine are used to produce a complex individual shape from metal.

Advantageously, the dimensions of the dental prosthesis part, which has been designed to the final dimension, are adjusted, taking into account the shape changes to be expected of the metallic material, and an intermediate body is thus constructed. The changes in shape resulting from post-treatment of the machined blank are subject to physical laws, which can be described by modeling, or they result from aspects of the technology used for post-treatment. With the help of a computer program it is possible to Sirona Dental Systems GmbH

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Taking into account the expected shape distortions during the post-processing to make an inverted image and thus to produce an intermediate body that reproduces the desired shape of the dental prosthetic item with high precision after the post-treatment.

According to a further development, the aftertreatment can include pressure and / or heat treatment. A sintering process at high temperatures is particularly suitable. Advantageously, as a part of the aftertreatment, a binder contained in the metal-containing powder mixture of the blank is at least partially removed.

The metal-containing powder mixture can be a single- or multi-modal mixture of metal powders, optionally with the addition of a binder. Alloys or metals, such as AuPt, AuPdAg, PdAg, AuPd, NiCr, CoCr, Pd and Ti, which are known in the art as suitable in the prior art, are particularly suitable as materials. Advantageously, the blank is machined to produce the Intermediate body by grinding or milling in a grinding and / or milling machine suitable for processing dental ceramics.

Another object of the invention is a blank for the production of dental prosthetic items from metallic materials. The blank consists of a metal-containing powder mixture. The metal-containing powder mixture comprises metal powder of one or more particle sizes and / or shapes, the blank preferably having a strength greater than 40 MPa (40-10 ⁶ N / m ² ). Sirona Dental Systems GmbH

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The strength is advantageously significantly lower than the final strength of the finished denture part.

This ensures that on the one hand the blank is sufficiently inherently strong to withstand the machining forces and that on the other hand problem-free machining of the blank is possible in a conventional dental milling or grinding machine.

The metal-containing powder mixture is advantageously compacted in the blank, so that the blank is sufficiently strong to withstand the forces during processing

The powder mixture forming the blank can consist of a mixture containing various metals and the composition of the mixture in the blank can be location-dependent.

In particular, the edge areas of the blank can be designed such that a lower final strength is achieved than in the central areas of the blank. This can be advantageous if different tasks have to be performed at the same time, such as resistance to chewing pressure and favorable abrasion behavior, strength and a tight bond with the dentin.

According to a further development, the blank consists of a metal-containing powder mixture with a binder, the proportion of which is dimensioned such that the powder mixture can be shaped with a binder. The binder can be in the form of powder.

The proportion of binder present in the blank is advantageously greater than 20% by volume and is at most 50% by volume.

In another development, the blank is formed from a compacted metal-containing powder mixture and Sirona Dental Systems GmbH

The binder is present in a proportion of less than 20% by volume, preferably less than 0.5% by volume. The proportion of the binder may have been reduced by partially detaching it from an originally higher proportion. The compacting may also make it possible to completely dispense with an additional binder.

The blank can contain surface elements on which a fit to other bodies can be produced. These surface elements do not have to be machined to produce an intermediate body.

Another object of the invention is an intermediate body for producing a tooth replacement part, which is produced by machining a blank described above. The intermediate body differs from the dental prosthetic item to be produced by the amount of the dimensional change to be expected in the thermal finishing and advantageously has a strength (0.2% yield strength) higher than 40 MPa (40-10 ⁶ N / m ² ). Here, too, the strength is advantageously significantly lower than the final strength of the finished dental prosthetic item.

Yet another object of the invention is a tooth replacement part made of metal, which has sintered metal particles and whose strength (0.2% proof stress) is higher than 100 MPa (100 -10 ⁶ N / m ² ). The denture part advantageously has a residual binder content of less than 0.1%, preferably it no longer contains any binder.

Both the blank and the denture part or the intermediate part can have a material as a binder that evaporates when heated to temperatures above 100 ° C. Sirona Dental Systems GmbH

Yet another object of the invention is a binder for a blank, tooth replacement part or an intermediate part made of metal, which is made of at least 90% organic materials, for example wax or synthetic resin, with a volatilization point at a temperature above 100 ° C. and below 600 ° C. having.

Yet another object of the invention is a method for producing a blank containing metallic materials. A metal-containing powder mixture is formed into a blank and solidified.

Furthermore, the powder mixture of metal and binder can be compressed by means of pressure and / or heat treatment.

A binder can be added to the metal-containing powder mixture before the blank is created, in order to enable the blank to be shaped by injection molding, extrusion or extrusion.

The binder is advantageously removed before the blank is processed. The blanks can be compacted by means of pressure and / or temperature even during or after the removal of the binder.

The proportion of the binder in the total mixture is advantageously between 20 and 50 percent by volume (vol%).

The location-dependent composition of the batch is preferably produced into a blank from a gradient material by layer pressing, sedimentation or spraying. The location-dependent composition of the batch in the blank can also only be obtained through further process steps, such as chemical bonding or the diffusion of additives. Sirona Dental Systems GmbH

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Another object of the invention is a metal-containing powder mixture for the production of a blank for the production of dental prosthetic items. Metallic materials with a proportion of at least 50% by volume are provided in the powder mixture.

Brief description of the drawings

Exemplary embodiments of the invention are shown in the drawing. It shows

1 shows a flowchart of the method according to the invention

Fig. 2 shows a blank, the

Fig. 3 shows an intermediate body and

Fig. 4 is a tooth replacement part.

embodiments

1 shows a flow chart to explain the method according to the invention. For the production of the dental prosthesis, a blank is used, which consists of metal powders of single or multi-modal particle sizes and / or shapes. These powders are e.g. B. produced by atomization or chemical deposition. One-modal particle sizes are understood to mean the particles of a size distribution, whereas multimodal particle sizes have particles of different size distributions. The blank can be produced from these powders by pressure or temperature compacting. When the powders are mixed with binder, they can be converted into blanks by injection molding, extrusion, extrusion or other molding processes. Then the binary Sirona Dental Systems GmbH

- 10 - are removed and, if necessary, the blanks are further compacted by means of pressure or temperature.

The consistency of these blanks is adjusted so that they are sufficiently firm to allow machining with abrasive instruments by grinding or milling. In particular, it should be possible to work with a conventional grinding or milling machine for dental ceramics without changes to the machine. An important boundary condition is the necessity that the shape change that the workpiece undergoes during the final thermal treatment (aftertreatment) can be precisely predicted using a model. After the construction of the workpiece, this model is applied to the fitting body in order to change the shape and size in such a way that the body has exactly the shape that is actually needed for the application after the finishing. The parameters can be determined for each material by tests that are based on the process parameters of the final thermal treatment (aftertreatment). As a rule, a batch-wise dependency of the parameters can be determined.

The creation of a dental prosthesis is based on the patient's actual situation. The area to be supplied is scanned in its topographical shape after the preparation has been made. This can be done, for example, directly in the patient's mouth using a measurement camera, or it can be done indirectly with the help of a positive or negative impression of this area. The workpieces are then modeled using known methods. This is usually done via Sirona Dental Systems GmbH

- 11 - Computer-aided procedures. After the construction of the dental prosthesis, which is determined in its final dimensions, it is adapted with the help of illustration rules so that the distortions in shape resulting from the post-processing are eliminated. This creates an intermediate body to be produced by machining the blank.

After the completion of the intermediate body, any binder that is still present is driven out and the intermediate part is brought to the desired final properties of the dental prosthetic item by post-treatment (e.g. by sintering). This usually leads to a change in shape. The manner in which the shape changes is already taken into account on the basis of the model, so that the tooth replacement part reaches the desired final shape precisely.

Further finishing of the workpiece z. B. by Venering with ceramic or plastic masses and / or by polishing etc. can follow. Thanks to the invention, the wide range of metal restorations is opened up to the grinding machines for dental ceramics.

2 to 4, a blank, an intermediate body and a tooth replacement part are shown.

The blank 1 shown in FIG. 2 is fastened on a holder 2, which is used for receiving in the chuck of a grinding or milling machine suitable for processing dental ceramics. The outer dimensions of the blank 1 are dimensioned such that an intermediate part 3 to be produced from the blank lies completely within the blank. The blank has such strength Sirona Dental Systems GmbH

- 12 - that machining at one point on the blank is possible without destroying the structure of the blank.

The blank 1 contains a preformed surface element 4, on which a fit to other bodies can be produced. This surface element 4 does not have to be machined, but corresponds to the end geometry. In addition, a mating surface 5 is indicated in the intermediate body 3, which must be produced completely by machining. FIG. 3 shows the intermediate part worked out from the blank 1 from FIG. 2. The surface element 4 and the recess 5 can be seen here. This intermediate body 3 has an oversize compared to the final dimensions, which corresponds to the shrinkage parameters of a change in dimension to be expected in the aftertreatment. This also applies to the prefabricated surface element 4.

FIG. 4 shows a dental prosthetic item 6 which has been produced from the intermediate body 3 from FIG. 3 and has the final material properties. The dental prosthetic item 6 also has the final geometric dimensions, which have resulted from the intermediate body, for example, during a thermal aftertreatment by shrinking.

Claims

Sirona Dental Systems GmbH- 13 - CLAIMS

1. A method for producing a dental prosthetic item (6) from metallic materials, characterized in that a blank (1) formed and solidified from a metal-containing powder mixture is provided,

- That in a second step an intermediate body (3) is produced from the blank (1), and that in a third step a post-treatment of the intermediate body (3) takes place, with which the desired material properties of the tooth replacement part (6) are achieved.

2. The method according to claim 1, characterized in that before the machining of the blank (1) the dental prosthetic item (6), which has been designed to the final dimension, is adapted in its dimensions taking into account the shape changes to be expected of the metallic material and thus an intermediate body is constructed.

3. The method according to claim 1 or 2, characterized in that the aftertreatment comprises a pressure and / or heat treatment.

4. The method according to claim 3, characterized in that the aftertreatment comprises a thermal finishing of the machined blank (1), in which metal particles of the metallic material are sintered.

5. The method according to any one of claims 1 to 4, characterized in that as part of the aftertreatment, a binder contained in the metal-containing powder mixture of the blank (1) is at least partially removed. Sirona Dental Systems GmbH

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6. The method according to any one of claims 1 to 5, characterized in that the processing of the blank (1) for creating the intermediate body is carried out by grinding or milling in a grinding or milling machine suitable for processing dental ceramics.

7. blank (1) for the production of dental prostheses from metallic materials, characterized in that the blank (1) consists of a metal-containing powder mixture and that the metal-containing powder mixture comprises metal powder from one or more particle sizes and / or shapes, the blank being advantageously has a strength greater than 40 MPa (40-10 ⁶ N / m ² ).

8. Blank according to claim 7, characterized in that the metal-containing powder mixture in the blank (1) is compressed.

9. Blank according to one of claims 7 or 8, characterized in that the powder mixture consists of a mixture in which various metals are contained.

10. Blank according to claim 9, characterized in that the composition of the batch is location-dependent.

11. Blank according to one of claims 7 to 10, characterized in that it consists of a metal-containing powder mixture with a binder, the proportion of which is dimensioned such that the powder mixture can be shaped with a binder.

12. Blank according to claim 11, characterized in that the proportion of binder is greater than 20 vol% and is at most 50 vol%. Sirona Dental Systems GmbH

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13. Blank according to claim 11 or 12, characterized in that the blank (1) is compacted and that the binder is present in a proportion of less than 10 vol%.

14. Blank according to one of claims 7 to 13, characterized in that the blank (1) contains surface elements (4) on which a fit to other bodies can be produced.

15. intermediate body for the production of a dental prosthetic item (6), produced by machining a blank (1) according to one of claims 7 to 14, characterized in that the intermediate body (3) compared to the dental prosthetic item to be manufactured (1) by the amount of in the aftertreatment expected dimensional change is different.

16. Dental prosthesis made of metal, characterized in that it has sintered metal particles and has a strength higher than 100 MPa (100 • 10 ⁶ N / m ² ).

17. Tooth replacement part according to claim 16, characterized in that a residual proportion of binder of at most 0.1

Vol% is present.

18. Blank, intermediate body or dental prosthetic item according to one of claims 7 to 17, characterized in that a material is used as the binder, which volatilizes when heated to temperatures above 100 ° C.

19. Binder for a blank, an intermediate body or a dental prosthetic item made of metal according to one of claims 7 to 18, characterized in that the binder is at least 90% organic materials with a curse Sirona Dental Systems GmbH

- 16 - point at a temperature above 100 ° C and below 600 ° C.

20. A method for producing a blank containing metallic materials, characterized in that a metal-containing powder mixture is formed into a blank and solidified.

21. The method according to claim 20, characterized in that the blank is compressed by pressure or heat treatment.

22. The method according to claim 20, characterized in that a binder is added to the metal-containing powder mixture before the blank is produced.

23. The method according to claim 22, characterized in that the blank is formed by injection molding, extrusion or extrusion.

24. The method according to claim 23, characterized in that the binder is subsequently removed.

25. The method according to claim 24, characterized in that during or after the removal of the binder, the blank is compressed by means of pressure and / or temperature.

26. The method according to any one of claims 22 to 25, characterized in that the proportion of the binder in the total mixture is between 20 vol% and 50 vol%.

27. The method according to any one of claims 20 to 26, characterized in that a location-dependent composition of the mixture into a blank from a gradient material is produced by layer pressing, sedimentation or spraying. Sirona Dental Systems GmbH

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28. Powder mixture for the production of a blank for the production of dental prosthetic items, characterized in that metallic materials with a proportion of at least 50% are provided.