COMPOSITE SINTERED BODY, HONEYCOMB STRUCTURE, ELECTRIC HEATING CATALYST, AND MANUFACTURING METHOD OF COMPOSITE SINTERED BODY: Fid-Bau Portal

COMPOSITE SINTERED BODY, HONEYCOMB STRUCTURE, ELECTRIC HEATING CATALYST, AND MANUFACTURING METHOD OF COMPOSITE SINTERED BODY

HOSODA KAZUYA / ATSUJI KYOHEI / YAMAMOTO KISUKE / TOMITA TAKAHIRO

Abstract

To improve oxidation resistance of a composite sintered body.SOLUTION: A composite sintered body includes a silicon phase, a cordierite phase, and a high resistivity silicon carbide phase. A content rate of silicon in the composite sintered body is 30 mass% or over and 50 mass% or under to the composite sintered body. A content rate of cordierite in the composite sintered body is 10 mass% or over and 50 mass% or under to the composite sintered body. A content rate of high resistivity silicon carbide in the composite sintered body is 20 mass% or over and 50 mass% or under to the composite sintered body. By this, silicon particles can be made coarse, and oxidation resistance of the composite sintered body can be improved.SELECTED DRAWING: Figure 1

【課題】複合焼結体の耐酸化性を向上する。【解決手段】複合焼結体は、シリコン相と、コージェライト相と、高抵抗シリコンカーバイド相とを含む。当該複合焼結体におけるシリコンの含有率は当該複合焼結体に対して３０質量％以上かつ５０質量％以下である。当該複合焼結体におけるコージェライトの含有率は当該複合焼結体に対して１０質量％以上かつ５０質量％以下である。当該複合焼結体における高抵抗シリコンカーバイドの含有率は当該複合焼結体に対して２０質量％以上かつ５０質量％以下である。これにより、シリコン粒子を粗大化することができ、複合焼結体の耐酸化性を向上することができる。【選択図】図１

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COMPOSITE SINTERED BODY, HONEYCOMB STRUCTURE, ELECTRIC HEATING CATALYST, AND MANUFACTURING METHOD OF COMPOSITE SINTERED BODY

HOSODA KAZUYA / ATSUJI KYOHEI / YAMAMOTO KISUKE / TOMITA TAKAHIRO

Abstract

COMPOSITE SINTERED BODY, HONEYCOMB STRUCTURE, ELECTRIC HEATING CATALYST, AND MANUFACTURING METHOD OF COMPOSITE SINTERED BODY

HOSODA KAZUYA / ATSUJI KYOHEI / YAMAMOTO KISUKE / TOMITA TAKAHIRO

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Title:

COMPOSITE SINTERED BODY, HONEYCOMB STRUCTURE, ELECTRIC HEATING CATALYST, AND MANUFACTURING METHOD OF COMPOSITE SINTERED BODY

Additional title:

複合焼結体、ハニカム構造体、電気加熱触媒および複合焼結体の製造方法

Contributors:

HOSODA KAZUYA (author) / ATSUJI KYOHEI (author) / YAMAMOTO KISUKE (author) / TOMITA TAKAHIRO (author)

Publication date:

2023-09-28

Type of media:

Patent

Type of material:

Electronic Resource

Language:

Japanese

Classification:

IPC: C04B Kalk , LIME / F01N GAS-FLOW SILENCERS OR EXHAUST APPARATUS FOR MACHINES OR ENGINES IN GENERAL , Schalldämpfer oder Auspuffvorrichtungen für Gase von Kraft- und Arbeitsmaschinen oder von Kraftmaschinen allgemein

ATSUJI KYOHEI / SUZUKI SHINJI / OSHIMA SHIMPEI et al. | European Patent Office | 2022

Free access

COMPOSITE SINTERED BODY, HONEYCOMB STRUCTURE, ELECTRICALLY HEATING CATALYST, AND METHOD OF MANUFACTURING COMPOSITE SINTERED BODY

HOSODA KAZUYA / ATSUJI KYOHEI / YAMAMOTO KISUKE et al. | European Patent Office | 2023

Free access

COMPOSITE SINTERED BODY, HONEYCOMB STRUCTURE, ELECTRICALLY HEATING CATALYST, AND METHOD OF MANUFACTURING COMPOSITE SINTERED BODY

HOSODA KAZUYA / ATSUJI KYOHEI / YAMAMOTO KISUKE et al. | European Patent Office | 2023

Free access

Composite sintered body, honeycomb structure, electrically heated catalyst, and method of manufacturing composite sintered body

ATSUJI KYOHEI / SUZUKI SHINJI / OSHIMA SHINPEI et al. | European Patent Office | 2023

Free access

COMPOSITE SINTERED BODY, HONEYCOMB STRUCTURE, ELECTRICALLY HEATED CATALYST, AND METHOD OF MANUFACTURING COMPOSITE SINTERED BODY

ATSUJI KYOHEI / SUZUKI SHINJI / OSHIMA SHINPEI et al. | European Patent Office | 2022

Free access