WO1994021214A1

WO1994021214A1 - Material, method and kit for producing a ceramic dental reconstruction cap

Info

Publication number: WO1994021214A1
Application number: PCT/FR1994/000277
Authority: WO
Inventors: François LELIEVRE
Original assignee: Sofraced S.A.
Priority date: 1993-03-16
Filing date: 1994-03-15
Publication date: 1994-09-29
Also published as: CA2158445A1; FR2702649B1; JPH08508025A; FR2702649A1; EP0689414A1; AU6260894A

Abstract

A material (3) including a basic composition essentially consisting of a ceramic powder and reinforcing fillers is applied to a refractory core (1) and cured. A separating layer (2) is preferably applied to the core before applying the material.

Description

PRODUCT, PROCESS AND KIT FOR MANUFACTURING

A CERAMIC CUPULE BARE FROM

PERFORMING A DENTAL RECONSTRUCTION

The present invention relates to a product, a method and a

Kit for manufacturing a ceramic cup for the realization of a fully ceramic dental reconstruction, in particular a jacket, a bridge, an inlay, an onlay, an overlay or a ceramic veneer.

These dental restorations are usually obtained by making a cup or a metal facet then covered with ceramic layers intended to give the shape, appearance and final shade. We speak in this case of ceramic-metallic reconstruction.

From an aesthetic point of view, the ceramic-metallic assembly obtained is not satisfactory because the metal can appear through the ceramic layer, thus giving a grayish appearance to the final tooth. The presence of the metal can also cause biocompatibility problems due to the latent corrosion of the metal by saliva. This can result in an allergy caused by metal oxides.

An object of the present invention is to replace the metal cup with a ceramic cup.

To make this ceramic cup, a known technique consists in injecting, under pressure, a molten ceramic material into a mold, the cavity of which has the shape of the desired cup.

Another technique consists, firstly, of applying an alumina slip on a plaster core and baking it to make a frame, then in a second step, infiltrating the frame with a glass powder by subjecting it to an infiltration cooking.

The subject of the present invention is a technique making it possible to produce the cup without using an impregnation technique or injection means, and without requiring touch-up machining.

In addition, the invention aims to produce the cup with a reduced number of firings, for example a single firing, or two firing if the mass of ceramic is large, as in the case of a bridge for example.

In fact, the invention aims to give the prosthetist the means of producing a ceramic cup with his usual tools and his usual skills as easily as if he carried out any of the layers that the prosthetist must apply to a metal cup for perform a dental reconstruction.

To do this according to the invention, the prosthetist is provided with a product comprising: a) a basic composition essentially consisting of a ceramic powder and reinforcing fillers, said reinforcing fillers being constituted by fibers or platelets predominantly composed of '' one or more of the materials of the group consisting of alumina, zirconia, silica, glass, SIC, Si ₃ N ₄ , calcium phosphate and carbon, these fillers being in sufficient proportion to prevent deformation and cracking the cup during cooking of the cup; b) suitable solvents and / or vehicles for the product to be in the form of a paste or to be capable of being sprayed. possibly in aerosol form.

The technician applies this product to the refractory core with a brush or by spray depending on the state of the product, and cooks the core thus covered at a temperature in the range 800 ° C - 1300 ° C or better in the range 910 - 1150 ° C, or even better in the range

910-1050 ° C.

The cooking time can be remarkably short. for example of the order of thirty minutes, instead of several hours with conventional techniques.

To facilitate subsequent separation of the cup and the core. there is provision, in a preferred embodiment of the method of the invention. - first apply to the core a separating product essentially consisting of: - a refractory powder, the grains of which are not liable to agglomerate with one another during the cooking of the cup and are chosen from the following constituents: Zr0 ₂ , A1 ₂ 0 ₃ , Ti0 ₂ . TiC, Si ₃ N ₄ , BN, AIN, Si ₂ ON ₂ , TiN, TaN, CrN, AI ₄ C ₃ , SiC, B ₄ C ZrC, Be ₂ C, BeO, CaO, Cr ₂ 0 ₃ , MgO. Si0 ₂₎ WC, HC, HAP, TCP;

- an adhesive agent capable of temporarily holding the grains and of being destroyed by said cooking;

- appropriate solvents and / or vehicles to make the said product applicable in the paste state or by spraying, optionally in the aerosol state;

- then apply the product intended to constitute the ceramic cup, and cook the whole together. During this firing, the adhesive agent of the separator is removed, leaving between the core and the ceramic cup a powdery layer which allows to easily detach the cup.

In a typical embodiment, the prosthetist is provided with a kit which comprises at least one or more basic compositions as defined above, these compositions comprising different coloring agents, and at least one liquid solvent for preparing one or more pastes with these compositions, this kit also preferably comprising at least one separator product as defined above.

Preferred examples of implementation of the invention will be described below with reference to the figures of the accompanying drawing in which: - Figure 1 is a schematic view of the refractory core alone;

- Figure 2 is a schematic view of the refractory core after application of the separator;

- Figure 3 is a schematic view of the refractory core after completion of the ceramic base; - Figure 4 is a schematic view of the refractory core during the extraction of the cup;

- Figure 5 is a schematic view of the cup in place on the master model before making the dentin;

FIG. 6 is a schematic view of the cup replaced on the refractory core for cooking the dentin, and - Figure 7 is a schematic view of the cup covered with dentin and mounted on a metal rod for cooking dentin.

A core 1 is made of a refractory having the shape of the stump cut by the dentist from an imprint of this stump, for example a silicone imprint. (fig. 1).

A paste essentially composed of one or more refractory powders chosen from the group consisting of the following materials is applied to this core (FIG. 2): Zr0, A1 ₂ 0 ₃ . Ti0 ₂ , TiC. If ₃ N ₄ . BN. AIN. If ₂ ON ₂ . TiN. TaN. CrN. A1 ₄ C ₃ . SiC. B ₄ C. ZrC, Be ₂ C. BeO, CaO. Cr ₂ 0 ₃ . MgO. Si0 ₂ . WC. HfC. PAH. TCP, an adhesive agent and a solvent. The grains of the powder are coated with the adhesive agent, which temporarily fixes the grains to the core and will be volatilized during the cooking of the cup. This adhesive agent also prevents absorption of liquid from the base composition by the separator.

Alternatively, this product is in the form of an aerosol. The adhesive agent is, for example, an acrylic or / and polymer type adhesive, a cellulose adhesive, gum arabic or a fatty alcohol.

The solvent is for example an ether, an alcohol, a polyalcohol, a glycol, a halogen derivative, an ester or water.

Then applying (fig. 3) the base composition 3 intended to be fired to constitute the ceramic cup. This composition essentially consists of a ceramic powder and reinforcing fillers.

The ceramic powder essentially consists of particles of one or more frits containing mainly silica and alumina, in minor part one or more oxides from the group consisting of CaO, K ₂ 0, MgO, Na ₂ 0 and B ₂ 0. possibly other oxides, possibly adjuvants.

The reinforcing fillers which are mixed with the powder preferably consist of 5 to 60% by weight (relative to the total weight of powder + fillers) of fillers mainly composed of alumina, Zr0 ₂ or Si0. Charges can also be SiC, Si ₃ N ₄ , calcium phosphate, carbon or glass. These fillers are preferably fibers, long or short, or wafers or mixtures.

The basic composition is applied in the paste state or by spraying, using an appropriate solvent, in a manner known per se, which can be identical to that of the separator.

The separator + ceramic base assembly is heated on the core to a temperature higher than the firing temperature of the dentin and preferably in the range 800-1300 ° C., better in the range 910 to 1150 ° C. or even better in the range 910-1050 ° C.

This baking temperature is strongly influenced by the presence of reinforcing fillers which increase the refractoriness of the material of the cup. A high fiber content can give the cup roughness and microporosity of the surface which allow a much better anchoring of the dentin.

During this heating, the adhesive agent of the separator which coated the grains of the separator is removed but the grains do not agglomerate.

The cup 4 obtained after baking is easily detachable from the refractory core because the separator film has become essentially pulverulent (fig. 4).

The cup is detached from the core and it is put in place (FIG. 6) on the master model 5 where the layer or layers intended to constitute the dentin 6 are applied to it in a manner known per se. The cup is then removed from the master model and is either replaced on the refractory core (fig. 6), or on another support, for example a metal tip 7 (fig. 7), to be heated again in order to cook. dentin.

The dentin layers can then receive additional layers, for example intended to give transparency or a color, in a manner known per se, which will be baked.

EXAMPLE I

Separator: 36% of a zirconia powder, (% by weight 32% of glue (acrylic copolymer in solution total in water and propylene glycol or sesquiolate paste) sorbitan or isobutyl methacrylate), 31% solvent (polypropylene glycol), 1% dye.

Basic ceramic composition: a) particles of frits A and B are prepared by melting the constituents indicated below at a vitrification temperature, for example of the order of 1450 ° C. and by grinding the frits thus obtained:

SINTER A SINTER B

Si0 ₂ 50 to 60% (by weight) Si0 ₂ 55 to 65% (by weight)

A1 ₂ 0 ₃ 10 to 20% A1 ₂ 0 ₃ 15 to 25%

CaO 0.2 to 1% CaO 0 to 5%

MgO 0 to 0.5% MgO 0 to 1% κ ₂ o 5 to 20% κ ₂ o 5 to 10%

Na ₂ o 5 to 15% Na ₂ 0 4 to 10%

B ₂ 0 ₃ 1 to 15% B ₂ 0 ₃ 1 to 3%

Ti0 ₂ 0 to 10% Ti0 ₂ 0 to 2%

BaO 0 to 5% BaO 0 to 5%

CaF ₂ 0 to 5% CaF ₂ 0 to 3%

Sn0 ₂ 0 to 5% Sn0 ₂ 0 to 1%

Zr0 ₂ 0 to 5% Zr0 ₂ 0 to 1% c _e o ₂ 0 to 5% c ₂ o ₂ 0 to 1%

ZnO 0 to 5% ZnO 0 to 1%

Li ₂ 0 0 to 5% Li ₂ 0 0 to 1%

b) the frit particles are mixed in an amount of 20 to 95% (by weight), for example 88%, of frit A and 0 to 20%. for example 3.4%, frit B; c) a calcium phosphate, for example hydroxyapatite (HAP), tricalcium phosphate (TCP) or tetracalcium phosphate, is added to this mixture. in a proportion which may be as low as 0.1% by weight and as strong as 60% by weight but which is preferably maintained in the range 3 to 30%, for example 6% of PAH: d) 0-20% by weight is added to this mixture, example 1, 3% zirconia; e) a powder coloring agent, for example 1.3% coloring agent (by weight), is added to this mixture; f) the mixture is cooked at a temperature in the range 700 - 900 ° C to homogenize it and is ground; g) alumina fibers are added to this ground material in an amount of 25% by weight of fibers per 75% of ground material.

The alumina fibers may have previously undergone a coating treatment with a slip having the composition of the said mixture, a heat treatment at a temperature in the range 800 - 100 ° C and a grinding; h) a paste is prepared by adding a solvent consisting of 10% (by weight) of natural flavor, 10% (by weight) of butane diol 1 -3 and 80% (by weight) of propylene glycol methyl ether, until you get the desired consistency.

EXAMPLE II

Separator: The same separator is used as in Example I. Ceramic composition a) a "C" frit consisting of Si0 ₂ 61, 18% (by weight) A1 ₂ 0 ₃ 14.52% is ground

CaO 0.20% MgO 1.00%

Na ₂ 0 20.09%

B ₂ 0 ₃ 3.01% b) alumina fibers and a dye powder are added to the ground material, in an amount of 18% by weight of fibers and 1% by weight of dye per 81% by weight of the ground material. c) a paste is prepared as in Example I.

The invention is not limited to these embodiments given essentially by way of preferred examples.

Claims

R E V E N D I C A T I O N S

JL Product to be applied to a refractory core and fired to make a ceramic cup capable of receiving one or more layers of dentin. possibly other layers, to prepare a dental reconstruction, this product comprising: a) a basic composition essentially consisting of a ceramic powder and reinforcing fillers, said reinforcing fillers being constituted by fibers or platelets predominantly composed of one or more of the materials of the group consisting of alumina, zirconia, silica, glass, SIC, Si ₃ N ₄ , calcium phosphate and carbon, and being in sufficient proportion to prevent deformation and cracking of the cup during cooking; b) suitable solvents and / or vehicles for the product to be in the form of a paste or to be capable of being sprayed.

2. Product according to claim 1, characterized in that the percentage of reinforcing fillers is adjusted so that the cooking temperature of the product is in the range 800-1300 ° C. or better 910 - 1150 ° C, or even better in the range 910 - 1050 ° C.

3. Product according to claim 1 or 2, characterized in that the basic composition comprises between 5 and 60% by weight, preferably between 10 and 30% by weight of reinforcing fillers.

4 ^ Product according to one of claims 1 to 3, characterized in that the basic composition comprises at most 25% by weight of alumina fibers as reinforcing fillers.

5 ^ Product according to one of claims 1 to 4, characterized in that the ceramic powder was obtained by firing and grinding a mixture of particles of one or more frits essentially consisting of silica, alumina, d potassium oxide and sodium oxide.

6. Product according to claim 5, characterized in that the mixture comprises 20 to 95% by weight of frit A and 0 to 20% by weight of frit B relative to the total weight of the mixture.

7 Product according to claim 6, characterized in that the mixture comprises 88% (by weight) of frit A and 3.4% (by weight) of frit B relative to the total weight of the mixture.

8. Product according to claim 5 or 7. characterized in that said mixture also contains zirconia.

9 _;, Product according to one of claims 5 to 8, characterized in that said mixture also contains one or more calcium phosphates.

10. Product according to claim 9, characterized in that said mixture comprises 3 to 30% by weight of a calcium phosphate relative to the total weight of the mixture.

11. Product according to claim 9 or 10, characterized in that said mixture comprises hydroxyapatite.

12. Product according to one of claims 5 to 11, characterized in that said mixture also contains a dye.

13. Product according to claim 7, characterized in that said mixture comprises 6% by weight of PAH.

14. Product according to one of claims 1 to 4, characterized in that 70 to 90% by weight of the mixture consist of frit particles.

15. Product according to one of claims 1 to 4, characterized in that the ceramic powder is a powder of a frit essentially consisting of silica, alumina and sodium oxide.

16. Product according to claim 15, characterized in that the frit has substantially composition C.

17. Product according to claim 15 or 16, characterized in that a powdered dye is added to the frit.

18. Product according to one of claims 1 to 17, characterized in that said solvents are chosen from the group consisting of: water, an ether, an ester, a polyalcohol, a glycol or a halogen derivative.

19. Method for producing on a refractory core a ceramic cup capable of receiving one or more layers of dentin. for preparing a dental reconstruction, characterized in that one applies to the core, in one or more layers, such as a paste or by spraying, a product according to one of claims 1 to 18 and in that the core is subjected thus coated for cooking.

20. Method according to the preceding claim, characterized in that said cooking is carried out at a temperature in the range 800 ° C - 1300 ° C.

21. The method of claim 20, characterized in that said cooking is carried out at a temperature within the range

910 - 1150 ° C, or better 910 - 1050 ° C.

22. Method according to one of claims 19 to 21, characterized in that before applying the product to the core, a separator product is applied to the core which comprises: - a refractory powder whose grains are not susceptible to agglomerate together during the cooking of the cup and are chosen from the following constituents: Zr0 ₂ , A1 ₂ 0 ₃ , Ti0 ₂ , TiC, Si ₃ N ₄ , BN. AIN, If ₂ ON ₂ . TiN. TaN. CrN. A1 ₄ C ₃ , SIC. B ₄ C ZrC, Be ₂ C, BeO. CaO. Cr ₂ 0 ₃ , MgO, Si0 ₂ , WC, HfC, HAP, TCP; - an adhesive agent capable of temporarily holding the grains and of being destroyed by said cooking;

- solvents and / or vehicles suitable for making said separator product applicable in the paste state or by spraying.

23. The method of claim 22, characterized in that said adhesive agent is chosen from the group consisting of an acrylic type or polymer type glue, a cellulose glue, gum arabic or a fatty alcohol.

24. Method according to one of claims 19 and 20, characterized in that the refractory powder is a zirconia powder.

25. Kit for implementing a method according to one of claims 19 to 24. characterized in that it comprises one or more basic compositions as defined in one of claims 1 to 17 comprising different coloring agents, and at least one liquid solvent for preparing one or more pastes with these compositions or for preparing a product suitable for being sprayed.

26. Kit for implementing a method according to one of claims 19 to 24, characterized in that it comprises one or more basic compositions as defined in one of claims 1 to 17, comprising different coloring agents , in the form of aerosols.

27. Kit according to claim 25 or 26, characterized in that it further comprises a separator product as defined in one of claims 22 to 24, in the form of a paste or aerosol.