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REACTIVE SINTERED SILICON CARBIDE SINTERED COMPACT AND METHOD FOR PRODUCING THE SAME
To provide a high strength component made of reactive silicon carbide not obtained by the conventional reaction sintering using extrusion molding or cast molding.SOLUTION: Using: silicon carbide powder (a) in which the average particle diameter is 2 to 5 μm and the maximum particle diameter is 10 μm or lower; and silicon carbide powder (b) in which the average particle diameter is 0.1 to 0.5 μm and the maximum particle diameter is 5 μm or lower as silicon carbide raw material powder, as carbon, carbon black (c) in which the average particle diameter is 0.001 to 0.1 μm is added to the silicon carbide powder (a) and the silicon carbide powder (b), an organic binder is added to each powder of (a), (b), (c) and extrusion molding or cast molding is performed to create a desired molded body, and metal silicon powder is impregnated therein to be sintered, thus high strength reactive sintered silicon carbide made of silicon and silicon carbide can be obtained.SELECTED DRAWING: Figure 1
【課題】従来の反応焼結では得ることのできなかった高強度の反応炭化ケイ素からなる部品を押出成形もしくは鋳込み成形を用いて提供する。【解決手段】炭化ケイ素原料粉末に平均粒径2~5μmからなる粉末且つ最大粒径が10μm以下である炭化ケイ素粉末(a)と平均粒径0.1~0.5μmからなる粉末且つ最大粒径が5μm以下である炭化ケイ素粉末(b)を用い、これら(a),(b)の炭化ケイ素粉末にカーボンとして、平均粒径0.001~0.1μm以下のカーボンブラック(c)を添加して、(a)、(b)、(c)の各粉末に有機バインダを添加して出成形もしくは鋳込み成形により、所望する成形体を作成し、金属シリコン粉末を含侵させて焼結することによりシリコンと炭化ケイ素からなる高強度の反応焼結炭化ケイ素を得ることができる。【選択図】図1
REACTIVE SINTERED SILICON CARBIDE SINTERED COMPACT AND METHOD FOR PRODUCING THE SAME
To provide a high strength component made of reactive silicon carbide not obtained by the conventional reaction sintering using extrusion molding or cast molding.SOLUTION: Using: silicon carbide powder (a) in which the average particle diameter is 2 to 5 μm and the maximum particle diameter is 10 μm or lower; and silicon carbide powder (b) in which the average particle diameter is 0.1 to 0.5 μm and the maximum particle diameter is 5 μm or lower as silicon carbide raw material powder, as carbon, carbon black (c) in which the average particle diameter is 0.001 to 0.1 μm is added to the silicon carbide powder (a) and the silicon carbide powder (b), an organic binder is added to each powder of (a), (b), (c) and extrusion molding or cast molding is performed to create a desired molded body, and metal silicon powder is impregnated therein to be sintered, thus high strength reactive sintered silicon carbide made of silicon and silicon carbide can be obtained.SELECTED DRAWING: Figure 1
【課題】従来の反応焼結では得ることのできなかった高強度の反応炭化ケイ素からなる部品を押出成形もしくは鋳込み成形を用いて提供する。【解決手段】炭化ケイ素原料粉末に平均粒径2~5μmからなる粉末且つ最大粒径が10μm以下である炭化ケイ素粉末(a)と平均粒径0.1~0.5μmからなる粉末且つ最大粒径が5μm以下である炭化ケイ素粉末(b)を用い、これら(a),(b)の炭化ケイ素粉末にカーボンとして、平均粒径0.001~0.1μm以下のカーボンブラック(c)を添加して、(a)、(b)、(c)の各粉末に有機バインダを添加して出成形もしくは鋳込み成形により、所望する成形体を作成し、金属シリコン粉末を含侵させて焼結することによりシリコンと炭化ケイ素からなる高強度の反応焼結炭化ケイ素を得ることができる。【選択図】図1
REACTIVE SINTERED SILICON CARBIDE SINTERED COMPACT AND METHOD FOR PRODUCING THE SAME
反応焼結炭化ケイ素焼結体とその製造方法
SAGAWA YOSHIMITSU (author)
2022-01-27
Patent
Electronic Resource
Japanese
IPC:
C04B
Kalk
,
LIME
| European Patent Office | 2024
SILICON CARBIDE SINTERED COMPACT AND METHOD FOR PRODUCING THE SAME
| European Patent Office | 2016
| European Patent Office | 2015