TRANSLUCENT VENEERING FOR A DENTAL PROSTHESIS FORMED BY A PRESS TO METAL PROCESS

Abstract
A dental prosthesis, typically formed in a press to metal process, includes application of a porcelain composition sufficient to form a veneer on a dental prosthesis supporting metal structure, the composition having an integrated tooth-like translucency providing an aesthetic appearance. The composition is formed of a dentin frit and an enamel frit, typically sintered into a desired ingot shape including an amount of composition sufficient to veneer the prosthesis. The porcelain composition is a component of a kit that includes opaquers, other porcelains and stains useful in finishing to provide an aesthetic prosthesis.
Description
FIELD OF INVENTION

The invention relates to dental prostheses comprising porcelain fused to a metal supporting structure or coping. Particularly, the invention relates to prostheses made by pressing a heated ceramic material into a mold onto said coping, wherein the mold is typically made by the lost wax process.


BACKGROUND OF THE INVENTION

A majority of crown and bridge restorations of teeth continue to be porcelain fused to a metal supporting structure or coping that provides strength for the prosthesis. While “all-ceramic” prostheses are of increasing importance, porcelain fused to metal (PFM) remains cost effective and provides satisfactory aesthetics.


Since the metal substructures used in these restorations are not naturally tooth colored, esthetic veneering porcelains are applied that mimic the color and form of natural teeth. The veneering process plays a critical role in providing a satisfactory restoration. Typically the process of making a PFM restoration requires an opaque layer for masking the metal coping; a dentin layer that simulates the color of the tooth dentin; and an enamel layer that simulates the transparency and neutral colors of the tooth enamel. Other materials such as stains are typically used to achieve aesthetic effects.


Each layer is typically applied by hand, first requiring mixing of selected porcelain powders and liquids. The result is subject to variability and depends upon careful work of a skilled ceramist. Achieving consistent, aesthetic results is time consuming and adds significant cost to the final product, as well as requiring people who have a scarce skill and necessary experience.


In a continuing drive to simplify processes and reduce labor costs, methods have been developed to replace the multi-stage porcelain veneering process by a process in which the veneer material is pressed onto the metal support. However, a remaining difficulty has been that the initial pressing must still often be followed by a hand layering with enamel porcelain, particularly to develop incisal edge translucency.


SUMMARY OF THE INVENTION

It is an object of the present invention to provide porcelain materials and processing methods wherein skilled, intensive, and costly hand layering is further reduced.


The invention is a dental prosthesis that includes a metal coping for supporting said prosthesis on tooth surfaces to be repaired. The metal coping is provided with an opaque layer that covers surfaces of the coping that would interfere with achieving an acceptable tooth-like appearance of the finished PFM. The opaque layer may be formed from a mixture of frits in powder or paste form and applied by spraying, a slurry dip, electrodeposit, or other forms or methods known to those skilled in the art. A porcelain layer, having an optimized, integrated translucency that blends dentin and enamel shades is fused to said opaqued surface by pressing the porcelain material onto said coping contained in a mold at fusing temperatures. The result is a strong and tough dental crown or bridge substructure that is veneered with porcelain having an integrated transparency, blending dentin and enamel character, such that further hand layering processes are eliminated or greatly reduced.





BRIEF DESCRIPTION OF THE DRAWINGS


FIG. 1. is a cross-sectional view of a dental prosthesis embodying concepts of the present invention.





DESCRIPTION OF THE PREFERRED EMBODIMENTS

The invention comprises a dental prosthesis, formed of elements, which may be supplied as components of a kit, that provide a porcelain fused to metal (PFM) restoration, using a pressing process to apply a finished surface instead of conventional hand layering of veneering porcelain. The veneering materials of the invention are designed for forming fixed prosthodontics devices that include both anterior and posterior crowns and bridges. Components of the kit, include principally: (1) dentin/enamel ingots having an integrated tooth-like translucency; and (2) opaquing porcelains, in both powder and paste forms, for covering metal coping surfaces that would otherwise be visible through the porcelain veneer. In addition, the kit may include enamel effect porcelains and glaze/stain porcelains for finishing the prosthesis, as necessary.


The veneering kit of the invention is intended for application to a wide range of supporting structure or coping alloys. For example, two commercially available alloys are non-precious NCM Alpha and Advantage, both manufactured by Austenal, formed into a coping by conventional casting techniques, well known to those skilled in the dental arts. The invention may particularly be utilized with conventional PFM alloys, for example, having coefficients of thermal expansion (CTE) of about 14.0 μ/m/K at 500° C. As necessary, the components may be engineered by blending compositions and adjusting their expansion properties to meet the needs of a particular alloy. In general however, the invention may be utilized with current alloys without the need for a new and specialized alloy set.


The press to metal process for making PFM restorations is well known in the art. The invention and its components are readily adapted to the pressing process, providing a significantly improved efficiency to the medium pressure injection molding process.


In the press to metal process, a metal coping is placed in a mold. The coping is then coated with an opaquing porcelain which may be in powder or paste form, applied by spraying, a slurry dip, electrodeposit or in other forms or methods known to those skilled in the art. The opaquing is followed by wax-up and spruing to form a desired finished prosthesis form. The form is then invested, preferably in an all ceramic investment material, and the wax burned out, forming the prosthesis mold. An appropriate amount of integrated translucency porcelain component of the invention is then pressed into the mold, typically under the conditions shown in Table 1 below. The prosthesis is then divested of the molding material for finishing.


The compositions for utilization in the press to metal process are designed such that the prosthesis produced is directly a desired shade match. Of course, the aesthetics may be modified or improved by the use of small amounts of “enamel effect powders”. These are typically applied in small sections at desired areas such as incisal edges, cusps, etc., followed by application of an overglaze or stains, as is well known in the art.









TABLE 1







PRESSING CONDITIONS












Low temp.
High temp.
Heat rate
High temp.
Pressing
Pressure*





700° C./
890° C./
60° C./
20 min
10 min
4.25 bars


1292°
1634
108° F.





*for Multimat Touch and Press System, use 2.5 bars






The integrated translucency composition of the invention is preferably utilized in the form of an ingot, preferably composed of a mixture of a dentin frit and a more transparent enamel frit. An example of a preferred frit formula for the ingot, as well as preferred ranges of compositions are listed in Table 2. To make the ingot material into a desired white porcelain, it is preferable to add 0.05% of antimony oxide (Sb2O3) and a fluorescing agent. The ingots are formed of the desired frits, typically in an amount of 2-5 grams, typically by pressing into a desired ingot form, pre-sintering at an initial temperature and further sintering at a higher temperature. The chemical compositions of the ingot white porcelain material together with the two raw frits are listed in Table 3.









TABLE 2







FRIT FORMULATION OF PORCELAIN INGOT MATERIAL











Frit
Dentin Frit (Range)
Enamel Frit (Range)







Weight %
78 (85-70)
22 (15-30)

















TABLE 3







CHEMICAL COMPOSITION OF INGOT


WHITE PORCELAIN (WT %)










Oxide
Dentin Frit
Enamel Frit
Ingot white (Range)














SiO2
64.5
64.7
64.5
(63-66)


Al2O3
10.8
17.2
12.2
(10-14)


Na2O
8.1
2.5
6.9
(5-8)


K2O
9.6
13.2
10.4
(9-12)


Li2O

2.4
0.5
(0-2)


CaO
3.4

2.6
(1-4


BaO
1.8

1.4
(0-3)


Tb4O7
1.8

1.4
(0-3)


Sb2O3


0.05
(0-1)


fluorescing agent


0.05
(0-1)


Total
100
100
100









The coping opaquer, in powder form, comprises mixing two frits with zirconia (ZrO2). Preferred compositions and ranges are shown in Table 4 and the chemical compositions of powder opaques are listed in Table 5.









TABLE 4







FRIT FORMULATION OF POWDER OPAQUE












Frit
Frit 1
Frit 2
Zirconia







Weight %
50 (40-60)
35 (30-45)
15 (12-17)

















TABLE 5







CHEMICAL COMPOSITION OF POWDER OPAQUE (wt %)












Oxide
Frit 1
Frit 2
Powder Opaque White (Range)

















SiO2
64.7
64.5
54.9
(53-56)



Al2O3
17.2
10.8
12.4
(10-14)



Na2O
2.5
7.1
3.7
(3-5)



K2O
13.2
8.7
9.6
(8-11)



Li2O
2.4

1.2
(0-2)



CaO

3.4
1.2
(0-2)



BaO

1.8
0.6
(0-1)



CeO2

1.9
0.7
(0-1.5)



Tb4O7

1.8
0.7
(0-1.5)



ZrO2


15.0
(12-17)



Total
100
100
100










An alternative coping opaquer, in paste form, also comprises two frits: Frit 1 and Frit 3, mixed with zirconia (ZrO2), tin oxide (SnO2), cerium oxide (CeO2), titanium oxide (TiO2), and antimony oxide (Sb2O3). The frit mixing formula is listed in Table 6 and the chemical composition of paste opaque is listed in Table 7.









TABLE 6







FRIT FORMULATION OF PASTE OPAQUE














Frit
Frit 1
Frit 3
Zirconia
Tin
Cerium
Titanium
Antimony





Weight %
47 (40-
21 (20-
27 (25-
3 (0-
1.5 (1-
0.5 (0-1)
0.05 (0-1)
















TABLE 7







CHEMICAL COMPOSITION OF PASTE OPAQUE (wt %)












Oxide
Frit 1
Frit 3
Paste Opaque White

















SiO2
64.7
64.5
43.28
(42-45)



Al2O3
17.2
10.8
10.19
(8.5-11.5)



Na2O
2.5
8.1
2.84
(2-4)



K2O
13.2
9.6
8.10
(6-9)



Li2O
2.4

1.11
(0.5-2)



CaO

3.4
0.70
(0.5-2)



BaO

1.8
0.37
(0-1)



CeO2

1.3
1.75
(1-2)



SnO2


2.95
(0-4)



TiO2


0.49
(0-1)



Sb2O3

0.5
0.15
(0-1)



ZrO2


26.59
(25-35)



Total
100
100
100











FIG. 1 illustrates a dental prosthesis employing concepts of the present invention, which include a restoration 10 shown to be mounted in place on a prepared tooth 12. The prosthesis 10 includes a coping 14, which is covered by an opaque layer 16, which in turn is covered by a single porcelain layer 18.

Claims
  • 1. A dental prosthesis, comprising: an opaque layer being formed from a opaque mixture having:40 to 60% by weight a first frit; 30 to 45% by weight a second frit, the second frit being different than the first frit.
  • 2. The dental prosthesis of claim 1, further comprising a metal supporting structure or coping.
  • 3. The dental prosthesis of claim 2, wherein the opaque layer is covering surfaces of the metal supporting structure or coping that would otherwise adversely affect the tooth-like appearance of the finished prosthesis.
  • 4. The dental prosthesis of claim 1, wherein the opaque mixture further includes ZrO2.
  • 5. The dental prosthesis of claim 2, further comprising a single porcelain layer having an integrated tooth-like translucency fused to the opaque layer.
  • 6. The dental prosthesis of claim 5, wherein the porcelain layer comprises a blend of dentin and enamel frits, in ratios of 70:30 to 85:15 percent by weight, respectively.
  • 7. The dental prosthesis of claim 2, further comprising a single porcelain layer having an integrated tooth-like translucency fused to the opaqued metal supporting structure or coping surface, the porcelain layer comprising a blend of dentin and enamel frits, in ratios of 70:30 to 85:15 percent by weight, respectively.
  • 8. The dental prosthesis of claim 1 wherein the opaque layer is applied by hand application using a spatula or a brush, spraying, a slurry dip or electrodeposit.
  • 9. The dental prosthesis of claim 1, wherein the second frit includes at least two of the following components: CaO,BaO,CeO2, andTb4O7.
  • 10. The dental prosthesis of claim 1, wherein the single porcelain layer further includes Sb2O3.
  • 11. Method of making a porcelain veneered dental prosthesis including a substructure, comprising the steps of: forming an opaquing ceramic mixture by blending40 to 60% or by weight a first frit; and20 to 45% by weight a second frit, the second frit being different from the first frit;coating and firing the substructure with the opaquing ceramic mixture to form an opaque layer fused to the substructure.
  • 12. The method of claim 11, further comprising the step of providing in a hot press furnace means for injecting a ceramic porcelain material into an investment mold.
  • 13. The method of claim 11, further comprising the step of investing the dental substructure in a mold forming an adjacent cavity for receiving a veneer to be fused to the opaque layer of the substructure;
  • 14. The method of claim 13, further comprising the step of injecting, under heat and pressure, into the veneer cavity a porcelain ceramic having an integrated tooth-like translucency wherein the porcelain ceramic forms a translucent layer that is fused to the opaque layer of the supporting structure or coping, thereby forming a finished prosthesis having a tooth-like appearance.
  • 15. The method of claim 11, wherein the substructure is a metal supporting structure or coping.
  • 16. The method of claim 11, wherein the opaquing ceramic mixture further includes ZrO2.
  • 17. The method of claim 14, further comprising the step of forming the porcelain ceramic by blending dentin and enamel frits, in ratios of 70:30 to 85:15 percent by weight, respectively.
  • 18. The method of claim 11, wherein the opaque layer is in powder form or in paste form.
  • 19. The method of claim 11, wherein the second frit includes at least two of the following components: CaO,BaO,CeO2, andTb4O7.
  • 20. The method of claim 11, wherein the second frit includes at least two of the following components: CaO,BaO,CeO2, andSb2O3.
  • 21. The method of claim 14, wherein the porcelain ceramic includes Sb2O3.
  • 22. The method of claim 11, wherein the opaquing ceramic is applied by hand application using a spatula and/or a brush, spraying, a slurry dip or electrodeposit.
  • 23. A dental prosthesis, comprising: a single porcelain layer comprising a blend of dentin and enamel frits, in ratios of 70:30 to 85:15 percent by weight, respectively, wherein the blend of the dentin frit and the enamel frit includes:70 to 85% by weight the dentin frit; and15 to 30% by weight the enamel frit, the enamel frit being different than the dentin frit.
  • 24. The dental prosthesis of claim 23, further comprising a substructure for supporting and fitting the prosthesis onto tooth surfaces requiring repair or replacement.
  • 25. The dental prosthesis of claim 24, wherein the substructure is a metal supporting structure or coping.
  • 26. The dental prosthesis of claim 24, further comprising an opaque layer covering surfaces of the substructure that would otherwise adversely affect the tooth-like appearance of the finished prosthesis.
  • 27. The dental prosthesis of claim 26, wherein the single porcelain layer having an integrated tooth-like translucency fused to the opaqued substructure surface.
  • 28. The dental prosthesis of claim 26, wherein the opaque layer is in a paste form that includes a mixture of: 40 to 50% by weight a first frit;20 to 30% by weight a second frit, the second frit being different than the first frit; andZrO2.
  • 29. The dental prosthesis of claim 28, wherein the mixture of the opaque layer further includes at least one of the following components: SnO2, andTiO2.
  • 30. The dental prosthesis of claim 26, wherein the opaque layer is in a paste form that includes: ZrO2, and at least one of the following components:SnO2,CeO2,TiO2, andSb2O3.
  • 31. The dental prosthesis of claim 26, wherein the opaque layer is applied by hand application using a spatula and/or a brush, spraying, a slurry dip or electrodeposit.
  • 32. The dental prosthesis of claim 6, wherein the blend of the dentin frit and the enamel frit includes: 70 to 85% by weight the dentin frit; and15 to 30% by weight the enamel frit, the enamel frit being different than the dentin frit,
  • 33. The method of claim 17, wherein the blend of the dentin frit and the enamel frit includes: 70 to 85% by weight the dentin frit; and15 to 30% by weight the enamel frit, the enamel frit being different than the dentin frit.
RELATED APPLICATIONS

This application is a continuation of application claims the benefit of and priority to U.S. patent application Ser. No. 12/459,783, filed on Jul. 8, 2009, which is a continuation application of U.S. patent application Ser. No. 11/788,600, filed on Apr. 20, 2007, now abandoned, which is herein incorporated by reference for all purposes.

Continuations (2)
Number Date Country
Parent 12459783 Jul 2009 US
Child 13934584 US
Parent 11788600 Apr 2007 US
Child 12459783 US