Compositions: ceramic – Ceramic compositions – Refractory
Reexamination Certificate
2002-04-11
2004-03-30
Group, Karl (Department: 1755)
Compositions: ceramic
Ceramic compositions
Refractory
C501S105000, C433S202100, C433S212100
Reexamination Certificate
active
06713421
ABSTRACT:
The invention relates to blanks for the preparation of dentures made from zirconium oxide ceramic with oxidic additive. In particular, the invention relates to blanks made from zirconium oxide ceramic which were reacted with 0.1 to 0.50 wt.-% of at least one of the oxides of the elements aluminium, gallium, germanium, indium, for the preparation of dentures, in particular crowns and bridges.
The use of ceramic prostheses in dentistry represents a desirable goal, as ceramic materials are characterized by high strengths and, unlike metal prostheses, already have tooth colour or assume it after firing. Because of the high tissue compatibility and the low heat conductivity compared with metals, ceramics are particularly suitable for dentures.
Pure zirconium oxide cannot be used for mechanical applications as its volume changes too much through modification changes during the cooling process after sintering. Through the addition of magnesium, cerium or yttrium oxides, however, this process can be checked. A detailed discussion can be found in “Aluminium-undZirkonoxidkeramik in der Medizin” [Aluminium and Zirconium Oxide Ceramics in Medicine], reprint from Industrie Diamanten Rundschau, IDR 2/1993 and also in EP-A-0 634 149.
EP-A-0 630 622 describes zirconium oxide-based blanks which, in addition to the constituents hafnium and yttrium oxide which are unavoidable when using zirconium oxide, contain up to 0.2 wt.-% impurities.
In EP-A-0 634 149, similar compositions are described in which the proportion of impurities is said to be under 0.1 wt.-%.
The disadvantage of impurities is the inclination, caused by the latter, of the ceramics to form glass or glass phases during the sintering process. Impurities therefore ultimately have a negative effect on the strength of the denture parts prepared from these ceramics and should be unconditionally avoided.
The object of the invention is to provide blanks for the preparation of fracture-resistant and accurately-fitting dentures.
Surprisingly, it was found that blanks, comprising zirconium oxide-based ceramics with an addition of 0.1 to 0.50 wt.-% of at least one of the oxides of the elements aluminium, gallium, germanium, indium are suitable for the preparation of complex dentures and filigree structures. Preferably, the oxides of the abovementioned elements are present in an amount as defined above with homogeneous distribution and not, like the impurities, unevenly and with varying concentration distribution. This homogeneous distribution can be achieved for example through co-precipitation as described in the embodiment of this invention.
Moreover, a uniform distribution of the particles formed during a pre-sintering process is advantageous. The granular form of the particles is preferably equiaxial with an average grain diameter of less than 1 &mgr;m, particularly preferably less than 0.7 &mgr;m.
Blanks according to the invention usually have a pore volume of 50 to 65%. The average pore size usually lies in the range from 3 &mgr;m to 0.1 &mgr;m, the range from 2 &mgr;m to 0.2 &mgr;m being preferred.
The blanks according to the invention comprise ceramics containing the components of the composition (1) described hereafter:
(A) 91 to 98.40 wt.-%, preferably 91 to 97.25 wt.-% zirconium oxide,
(B) 0 to 3.5 wt.-%, preferably 0 to 2.5 wt.-% hafnium oxide,
(C) 1.5 to 6.0 wt.-%, preferably 2.5 to 6.0 wt.-% yttrium oxide,
(D) 0.1 to 0.50 wt.-%, preferably 0.15 to 0.50 wt.-%, particularly preferably 0.20 to 0.50 wt.-%, quite particularly preferably 0.25 to 0.50 wt.-% of at least one of the oxides of the elements aluminium, gallium, germanium, indium,
(E) 0 to 1.9 wt.-%, preferably 0.0005 to 1.5 wt.-% coloring additives.
The sum of the wt.-% of the components (A) to (E) must add up to 100.
By component (E) of the composition (1) are meant coloring oxides from elements of the group Pr, Er, Fe, Co, Ni, Ti, V, Cr, Cu, Mn, with Fe
2
O
3
, Er
2
O
3
or MnO
2
preferably being used.
Moreover, the blanks according to the invention have a particularly high and uniformly distributed hardness and strength which makes them eminently suitable for use in the preparation of high-quality dentures by working of blanks in the non-densely sintered state.
As a homogeneous distribution of hardness and strength as well as density within each spatial direction of the non-densely sintered blank is required, it is advantageous that, through the use of the blanks according to the invention, even very small deviations in the density and hardness distribution of the non-densely sintered ceramic are avoided.
This is particularly advantageous when filigree structures or multisection bridges are to be prepared, as even very small inhomogeneities lead to breaking points which considerably impair the durability of these complex structures during working or lead to a different sintering behaviour which can be recognized from the distortion of the workpiece.
The addition of 0.1 to 0.50 wt.-%, preferably 0.15 to 0.50 wt.-%, particularly preferably 0.20 to 0.50 wt.-%, quite particularly preferably 0.25 to 0.50 wt.-% of at least one of the oxides of the elements aluminium, gallium, germanium, indium to such ceramics leads to the lowering of the sintering temperature and the increasing of the stability and the hydrolytic resistance in the densely sintered state. This situation is to be found for aluminium oxide in “Zirconia Powder” 09/97 product information from the company Tosoh.
The use of the powder named there for the preparation of accurately-fitting dentures is not mentioned. Its suitability for the intended use according to the invention is more, rather-than less, surprising because, as stated previously, it had to be assumed that foreign oxides represent impurities which negatively influence the breaking resistance and must be avoided.
The composition (1) according to the invention is prepared by dissolving the components (A) and (B) of the composition (1) contained in commercially available zirconium sand with HCl, mechanically separating the low-soluble impurities and combining them with the additives (C) and (D) likewise present as oxichlorides or chlorides after treatment with HCl as an aqueous, strongly acid solution.
Additives according to component (E) acting as colorants are then added likewise as chlorides, obtained through dissolution in HCl.
There follows a co-precipitation of the dissolved components by hydrolysis, calcination of the precipitation product, grinding of the calcinate to the desired end fineness and also a spray-drying process using temporary slip and binding agents.
The blanks according to the invention are converted, using known compression moulding processes, from the granules obtained in this manner into the desired preform, for example cylinders. These mouldings are released from the binder by a binder-dependent heat treatment and pre-sintered at a temperature between 850° C. and 1000° C., preferably between 950° C. and 995 ° C. with 0.5 to 2 hours holding time.
The blanks worked using customary processes, for example CAD/CAM or profiling, are densely sintered for example at 1200° C. to 1650° C., particularly preferably 1350° C. to 1550° C.
In particular the presence of impurities in the composition given above of the blanks according to the invention encourages the formation of glass phases or glass during the sintering process. Preferred according to the present invention are therefore compositions which allow a generation of blanks which do not form any glass phases or glass during the densifying.
The blanks according to the invention furthermore display a preferred deviation from the linearity of the shrinkage per spatial direction which is less than 0.05%, particularly preferably less than 0.01%.
It is furthermore known that the strength of nonmetallic-inorganic systems in general depend on the critical stress intensity factor K
IC
. This factor is clearly lower with amorphous materials, for example glasses, than with purely crystalline systems (D. Munz/T. Fett: Mechanisches Verhalten keramischer Werkstoffe [Mechanical Behav
Frank Sybille
Hauptmann Holger
Schnagl Robert
3M ESPE AG
Birch & Stewart Kolasch & Birch, LLP
Group Karl
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