Reaction synthesis of silicon carbide-boron nitride composites

Compositions: ceramic – Ceramic compositions – Carbide or oxycarbide containing

Reexamination Certificate

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C501S096100, C501S097400, C264S658000, C264S659000, C264S682000

Reexamination Certificate

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06764974

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a silicon carbide-boron nitride composite material comprising silicon carbide-boron nitride or silicon carbide-silicon nitride-boron nitride, obtained through an in-situ chemical reaction of same, and to a method for the manufacture of same, and in particular relates to the manufacturing and thereby providing of silicon carbide-boron nitride composite materials in which very fine boron nitride particles have been uniformly dispersed in a silicon carbide matrix, by utilising an in-situ chemical reaction between silicon nitride, boron carbide and carbon.
The present invention relates to a novel material which displays exceptional strength and corrosion resistance and which has a low elastic modulus and provides a material which can be utilised in such diverse applications as thermal shock resistant materials, mechanical shock resistant materials, heat resistant materials or corrosion resistant materials.
2. Description of the Related Art
Due to its exceptional resistance to oxidation and heat, silicon carbide is known as a sinter material containing silicon nitride, aluminium nitride, boron nitride and titanium boride as additives, as disclosed in U.S. Pat. No. 4,304,870, for example.
Due to their exceptional resistance to oxidation and corrosion, these materials are used as heat-resistant materials in air furnaces, and it is expected that as their properties are enhanced, their range of application will accordingly expand. The addition of boron nitride in particular allows the thermal shock resistance of the resulting composite material to be significantly enhanced, leading to anticipated applications in such fields as aircraft engine or gas turbine components.
Silicon carbide-boron nitride composite materials have conventionally been manufactured by mixing presynthesised silicon carbide and boron nitride powder using a mechanical method, then hot-pressing etc. the resulting mixture. With this method, however, the coarser the boron nitride powder is, the coarser the boron nitride particles will be in the resulting composite material. Due to boron nitride exhibiting a high anisotropy of thermal expansion, cracks tend to form along boundary surfaces; therefore, the larger the particles are, the less strength the composite materials will have.
Accordingly, boron nitride powder is preferable due to it being a fine powder; however, such fine powders are expensive and moreover it is difficult to eliminate the coarse powder completely.
With the foregoing problems with the prior art in view, the inventors of the present invention attempted to develop a new composite material, and a method for the manufacture of same, with which it is possible to eliminate completely the drawbacks with the aforementioned method, and having conducted diligent research in regard to the manufacture of composite ceramic materials utilising an in-situ chemical reaction discovered that silicon carbide-boron nitride composite materials can be manufactured by utilising an in-situ chemical reaction between silicon nitride, boron carbide and carbon and conducting a hot-press process on a powder mixture containing silicon nitride, boron carbide and carbon, involving a controlled rate of temperature increase. The inventors further discovered that an even finer material could be manufactured, which contained no air pockets, by further adding a sinter auxiliary such as alumina or yttria, and perfected the present invention based on these findings.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide, by utilising a simple in-situ chemical reaction, a method for manufacturing a silicon carbide-boron nitride composite material, and the composite material itself, which when compared with composites manufactured using traditional methods exhibits a finer structure, higher density, higher strength, lower elastic modulus and higher fracture toughness. The present invention relates to a silicon carbide-boron nitride composite material, which synthesised according to an in-situ chemical reaction between silicon nitride, boron carbide and carbon, and which contains fine boron nitride particles dispersed in a silicon carbide matrix, wherein aforementioned composite material is obtained by molding a powder mixture containing each of the components required in the in-situ reaction and sintering the mixture; and is a method for manufacturing the aforementioned material, wherein aforementioned method for manufacturing the silicon carbide-boron nitride composite material comprises molding a powder in which each component which is required in the in-situ chemical reaction between silicon carbide, boron nitride and carbon is admixed, and, as required, at least one component selected from among silicon carbide, boron nitride or silicon nitride is further added thereinto and the mixture is sintered to obtain the composite.
DETAILED DESCRIPTION OF THE INVENTION
It is an object of the present invention to manufacture, and thereby to provide, a silicon carbide-boron nitride composite material in which very fine boron nitride particles have been uniformly dispersed in a silicon carbide matrix, by means of an in-situ chemical reaction.
It is a further object of the present invention to manufacture, and thereby to provide, a silicon carbide-silicon nitride-boron nitride composite material by utilising an in-situ chemical reaction between silicon nitride, boron carbide and carbon.
The present invention, in resolving the aforementioned drawbacks, comprises the technical means below.
(1) A silicon carbide-boron nitride composite material with fine boron nitride particles uniformly dispersed in a silicon carbide matrix, which synthesised according to an in-situ chemical reaction between silicon nitride, boron carbide and carbon,
said silicon carbide-boron nitride composite material is produced by molding a powder mixture containing the said components which are required in the in-situ chemical reaction, and sintering the molded mixture to obtain the sintered composite.
(2) A silicon carbide-boron nitride composite material, which synthesised according to an in-situ chemical reaction between at least silicon nitride, boron carbide and carbon,
said silicon carbide-boron nitride composite material is produced by molding a powder comprising a silicon carbide, boron nitride or silicon nitride powder being added to a powder mixture containing the said components which are required in the in-situ chemical reaction between silicon nitride, boron carbide and carbon, and sintering the molded mixture to obtain the sintered composite comprising silicon carbide-boron nitride or silicon carbide-silicon nitride-boron nitride in which the phase composition is adjusted as required.
(3) A silicon carbide-boron nitride composite material, which synthesised according to an in-situ chemical reaction between at least silicon nitride, boron carbide and carbon,
said silicon carbide-boron nitride composite material is produced by molding a powder comprising a silicon carbide or boron nitride powder being added to a powder mixture containing the said components which are required in an in-situ chemical reaction between silicon nitride, boron carbide and carbon, and sintering the molded mixture to obtain the sintered composite in which the phase composition is adjusted as required.
(4) A method for manufacturing the composite material defined in any one of (1) through (3) above, which comprises mixing the components which are required in an in-situ chemical reaction between silicon nitride, boron carbide and carbon, adding further as required, at least one component selected from among silicon carbide, boron nitride or silicon nitride thereinto, molding the mixture, and sintering the molded mixture to manufacture a silicon carbide-boron nitride composite material or a silicon carbide-silicon nitride-boron nitride composite material.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
The present invention shall now be described in further detail.
According to the present i

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