JP3193883B2 - Method for degreasing zirconia ceramic compact - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention relates to a method for degreasing a zirconia ceramic compact containing CeO ₂ .

[0002]

2. Description of the Related Art As a method of manufacturing a ceramic part, a raw material mixture obtained by kneading a ceramic powder and an organic binder is molded by an injection molding method, an extrusion molding method, a casting method, or the like, and the obtained ceramic molded body is formed. A method of degreasing and sintering is generally performed.

When a ceramic component is manufactured by an injection molding method, first, an organic material mainly composed of a wax such as paraffin for imparting fluidity and a thermoplastic resin such as ethylene resin for imparting shape retention strength is used. The binder is mixed with the ceramic powder to produce a raw material mixture. next,
The raw material mixture is heated and pressed into a mold having a predetermined shape in a state of good fluidity to produce a ceramic molded body. Further, the ceramic molded body is heated in a degreasing step with a temperature rise profile of about 10 ° C./hr to remove the organic component of the organic binder by melting or thermal decomposition, and thereafter, sintering is performed to obtain a ceramic component. What you can get.

Here, Ce powder is used as a raw material ceramic powder.
When zirconia powder containing O ₂ (ceria) is used, CeO ₂ exhibits an oxidation catalytic action in a degreasing temperature range (250 ° C. to 400 ° C.), causing combustion of a thermoplastic resin accompanied by significant heat generation. That is, FIG. 1A shows a result of TG (thermogravimetric analysis) -DTA (differential thermal analysis) analysis of a CeO ₂ -stabilized tetragonal zirconia ceramic molded body molded using a wax, an acrylic resin, and polystyrene as an organic binder. FIG. 1B shows the results of analysis of a Y ₂ O ₃ stabilized tetragonal zirconia ceramic compact TG-DTA molded using the same organic binder. As shown in FIG. 1 (b), Y ₂ O ₃
In the case of the stabilized tetragonal zirconia ceramic molded body, only a broad exothermic peak is shown in the decomposition temperature range of the thermoplastic resin, and no large weight loss occurs, but in the case of the CeO ₂ stabilized tetragonal zirconia ceramic molded body, Due to the catalytic action of CeO ₂ , as shown in FIG. 1 (a), rapid heat generation and significant weight loss are observed at the combustion temperature of the acrylic resin and polystyrene.

[0005]

SUMMARY OF THE INVENTION As described above, CeO ₂
When the thermoplastic resin is rapidly burned by the catalytic action of CeO ₂ during heating to degrease the zirconia ceramic molded body containing, the combustion gas component vaporized in the ceramic molded body expands in a large amount in a short time. However, there is a possibility that defects such as cracks may occur in the ceramic molded body. This tendency becomes more remarkable as the thickness of the ceramic molded body increases, and it becomes difficult to perform degreasing. Therefore, in order to reduce the catalytic action of CeO ₂ and prevent cracks from occurring, CeO _{2 is used.} It is conceivable to perform degreasing at a slower rate of temperature rise in a temperature range in which catalysis acts.

However, in this case, the degreasing speed becomes slow and the degreasing time becomes long. In particular, in the case of a thick ceramic molded body or a ceramic molded body containing a large amount of an organic binder, the degreasing time becomes extremely long. There was a problem that productivity fell. The present invention has been made in view of the above points, and does not require a long time for degreasing, and it is CeO.
_An object of the present invention is to provide a method for degreasing a zirconia ceramic molded body, which can suppress the oxidation catalytic action of No. ₂ and reliably perform degreasing without causing damage such as cracks.

[0007]

SUMMARY OF THE INVENTION A method for degreasing a zirconia ceramic compact according to the present invention is a method for degreasing a zirconia ceramic compact formed from a zirconia ceramic powder containing CeO2 and an organic binder.
The zirconia ceramic molded body is heated in an atmosphere having an oxygen concentration of 20 vol% or less at 250 ° C. to 4 ° C. where CeO 2 exhibits a catalytic action.
Set the temperature rise rate in the range of 00 ° C to 6 ° C / hr or less.
And degreasing by heating.

[0008] A second aspect of the present invention, as the upper Symbol organic binders, is characterized in the use of a resin exhibiting a thermoplastic.

[0009]

Embodiments of the present invention will be described below. CeO ₂ is intended to be incorporated as a stabilizer of zirconia ceramics, CeO ₂ is preferably added in an amount of 8-12 mol% zirconia ceramic powder material.

On the other hand, the organic binder comprises a wax and a resin exhibiting thermoplasticity. Examples of the wax include paraffin wax, microcrystalline wax,
Examples thereof include oxidized wax, synthetic wax, carnaval wax, polyethylene wax, beeswax, and stearic acid. Examples of the thermoplastic resin include an acrylic resin, a styrene resin, an ethylene-vinyl acetate copolymer (EVA), a polyethylene resin, a polypropylene resin, an ethylene-ethyl acrylate copolymer (EEA),
Polyacetal resin, polyimide resin and the like can be given.

A raw material mixture can be prepared by mixing an organic binder with zirconia ceramic powder containing CeO ₂ . The mixing amount of the organic binder to the zirconia ceramic powder containing CeO ₂ varies depending on the type of the organic binder.
The range of the organic binder is generally 15 to 25 parts by weight based on 100 parts by weight of the zirconia ceramic powder containing O ₂ . By molding the raw material mixture by injection molding or the like, a zirconia ceramic molded body can be obtained.

Next, the zirconia ceramic compact is heated in a degreasing furnace in a degreasing step to remove organic binders. In the present invention, the degreasing is performed in a state where the oxygen concentration in the degreasing atmosphere is controlled to 20 vol% or less. By heating in an atmosphere having an oxygen concentration of 20 vol% or less, the oxidation catalytic action of CeO ₂ is suppressed to prevent the thermoplastic resin of the organic binder from being rapidly burned, and to prevent the zirconia ceramic molded body from cracking. It can be suppressed. It is desirable that the oxygen concentration in the degreasing atmosphere be as low as possible. However, even if the oxygen concentration is reduced to less than about 5 vol%, no remarkable improvement in the effect is observed. Therefore, in practice, the lower limit of the oxygen concentration is preferably 5 vol%.

As a method of lowering the oxygen concentration in the degreasing atmosphere, there is a method of mixing an inert gas with air flowing into a degreasing furnace in a degreasing step. As the inert gas in this case, it is preferable to use a gas such as nitrogen or argon that does not react with the zirconia ceramic formed body, the organic binder, the decomposition gas, and the like in the degreasing temperature range. In addition, when performing heating for degreasing, it is preferable to set heating conditions so that the rate of temperature rise in a temperature range in which CeO ₂ exhibits a catalytic action is 6 ° C./hr or less. 6 ° C heating rate
By setting the ratio to / hr or less, the catalytic action of CeO ₂ can be more effectively suppressed, and the occurrence of cracks in the zirconia ceramic molded body due to rapid combustion of the thermoplastic resin as the organic binder can be more reliably suppressed. Is what you can do. Temperature range CeO ₂ exhibits a catalytic action is 250 ° C. to 400 ° C.. The lower the heating rate in the temperature range in which CeO ₂ exhibits a catalytic action, the higher the effect of crack reduction can be obtained. However, if the heating rate is reduced, the degreasing time becomes longer in inverse proportion to this. It is preferable to set the lower limit of the heating rate to about 2 ° C./hr.

The degreasing step can be completed by heating the zirconia ceramic molded body by raising the temperature to about 500 to 700 ° C. Thereafter, the degreased zirconia ceramic molded body is removed. By firing according to a conventional method, a zirconia ceramic product can be manufactured.

[0015]

Next, the present invention will be described specifically with reference to examples.
I do. (Examples 1 to 4) CeO relative to the total amount of the zirconia particle phase
_TwoSpecific surface area 15m containing 12 mol% ^Two/ G of zircon
A near powder was prepared. On the other hand, polyethylene resin and acrylic
Thermoplastic resin mixed with a 1: 1 weight ratio of
And mix stearic acid in a 1: 1 weight ratio
Thus, a binder resin was prepared. And CeO_TwoTo
Binder resin to zirconia ceramic powder contained
By mixing and mixing at a ratio of 18% by weight,
A raw material mixture is prepared, and the raw material mixture is injection-molded,
mm × 40mm × 20mm zirconia ceramic molding
I got a body. Next, this zirconia ceramic compact is
In a degreasing furnace with an oxygen concentration shown in Table 2
The temperature is raised to 600 ° C at a speed and heated to degrease.
Was.

[0016]

[Table 1]

(Comparative Example 1) A zirconia ceramic molded body was subjected to the same procedure as in the above (Examples 1 to 4) except that the degreasing of the zirconia ceramic molded body was performed by heating in an oxygen concentration atmosphere. Instead of zirconia ceramic powder containing (Comparative Example 2) CeO _2, with tetragonal zirconia ceramic powder containing Y ₂ O ₃ 3 mol%, the (Example 1-4)
In the same manner as in the above, a zirconia ceramic molded body was obtained. This was heated and degreased in the same manner as in Comparative Example 1.

The appearance of the degreased zirconia ceramic molded bodies obtained in Examples 1 to 4 and Comparative Examples 1 and 2 was examined to calculate the crack defect rate. Table 2 shows the results.

[0019]

[Table 2]

In Comparative Example 1, the oxygen concentration in the degreasing atmosphere in Example 1 was changed to the atmospheric concentration. According to a temperature measurement chart in the degreasing furnace, a sharp exothermic peak was observed at around 320 ° C. . Therefore, the decomposition and burning temperature of the resin binder used in each of the examples and comparative examples was around 320 ° C., indicating that the catalytic action of CeO ₂ was working.
As shown in Table 2, cracks occurred in 20% or more of the degreased zirconia ceramic molded body of Comparative Example 1. On the other hand, in Comparative Example 2, since CeO ₂ was not contained, the catalytic action did not work, and the incidence of crack failure was low. In Examples 1 to 4, despite the fact that CeO ₂ is contained, the incidence of crack failure is low, and the oxygen concentration in the degreasing atmosphere is set to 20 vol% or less, whereby the CeO ₂ catalyst It is confirmed that the action can be suppressed.

(Examples 5 to 6 ) The same zirconia ceramic molded body as in Example 1 was heated in a degreasing furnace in an atmosphere having an oxygen concentration of 18 vol. Was performed. ( Comparative Example 3 ) The same zirconia ceramic molded body as in Example 1 was heated in a degreasing furnace in an atmosphere having an oxygen concentration of 18 vol% with a temperature rising rate profile shown in Table 3 to perform heating and degreasing. (Comparative Example 4 ) The same zirconia ceramic molded body as in Comparative Example 2 was heated in a degreasing furnace in an atmosphere having an oxygen concentration of 18 vol% with a temperature rising rate profile shown in Table 3 and heated to perform degreasing.

[0022]

[Table 3]

Thus, Examples 5 to 6 and Comparative Example 3
The appearance of the degreased zirconia ceramic molded body obtained in each of Nos. To 4 was examined to calculate the crack defect rate.
Table 4 shows the results.

[0024]

[Table 4]

It is confirmed that cracking increases when degreasing is performed at a high temperature rising rate as in Comparative Example 3 .

[0026]

As described above, according to the present invention, when the zirconia ceramic compact formed from the zirconia ceramic powder containing CeO ₂ and the organic binder is degreased, the zirconia ceramic compact is subjected to an oxygen concentration of 20 vol.
Since the degreasing is performed by heating in an atmosphere of 1% or less, the catalytic action of CeO ₂ can be suppressed and the thermoplastic resin of the organic binder can be prevented from being rapidly burned. Is not required to be set low, and it is possible to perform degreasing while suppressing the occurrence of cracks in the zirconia ceramic molded body.

Also, at 250 ° C. where CeO 2 shows a catalytic action.
Since the above-mentioned heating is performed by setting the heating rate in the range of 400 ° C. to 6 ° C./hr or less, the catalytic action of CeO 2 can be more effectively suppressed.

[Brief description of the drawings]

FIG. 1A is a measurement chart of TG-DTA analysis of a zirconia ceramic molded body containing CeO _2, and FIG.
Is the T of the zirconia ceramic compact containing Y ₂ O _3.
It is a measurement chart of G-DTA analysis.

──────────────────────────────────────────────────続 き Continuation of the front page (72) Inventor Yuji Natsuhara 1048 Ojimon Kadoma, Kadoma City, Osaka Prefecture Matsushita Electric Works, Ltd. (56) References JP-A-6-234569 (JP, A) JP-A-7-248432 ( JP, A) JP-A-6-144928 (JP, A) C.I. Sunil Kumar, et al "Processing and Densification of Ceria-Zirconia Ceramic through Extrusion of Ceramic-Polymer-Polymer Mixture, Vol. 58) Field surveyed (Int. Cl. ⁷ , DB name) C04B 35/42-35/49 CA (STN) JICST file (JOIS) REGISTRY (STN)

Claims (2)

(57) [Claims] When degreasing a zirconia ceramic molded body formed from a zirconia ceramic powder containing CeO2 and an organic binder, the zirconia ceramic molded body is treated with C2 in an atmosphere having an oxygen concentration of 20 vol% or less.
in the range of 250 ° C. to 400 ° C.
A method for degreasing a zirconia ceramic molded body, wherein the temperature is raised at a rate of 6 ° C./hr or less and heated to degrease. 2. The method for degreasing a zirconia ceramic molded body according to claim 1, wherein a resin exhibiting thermoplasticity is used as the organic binder.