Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Composite sintered body, honeycomb structure, electrically heated catalyst, and method for producing composite sintered body
The invention relates to a composite sintered body, a honeycomb structure, an electrically heated catalyst, and a method for manufacturing the composite sintered body, and aims to improve the oxidation resistance of the composite sintered body. The composite sintered body includes a silicon phase, a cordierite phase, and a high-resistance silicon carbide phase. The content of silicon in the composite sintered body is from 30% by mass to 50% by mass (inclusive) with respect to the composite sintered body. The content of cordierite in the composite sintered body is from 10% by mass to 50% by mass (inclusive) with respect to the composite sintered body. The content of the high-resistance silicon carbide in the composite sintered body is from 20% by mass to 50% by mass (inclusive) with respect to the composite sintered body. Therefore, the silicon particles can be coarsened, and the oxidation resistance of the composite sintered body can be improved.
本发明涉及复合烧结体、蜂窝结构体、电加热催化器及复合烧结体的制造方法,其课题在于,提高复合烧结体的耐氧化性。复合烧结体包含:硅相、堇青石相、以及高阻碳化硅相。该复合烧结体中的硅的含有率相对于该复合烧结体而言为30质量%以上且50质量%以下。该复合烧结体中的堇青石的含有率相对于该复合烧结体而言为10质量%以上且50质量%以下。该复合烧结体中的高阻碳化硅的含有率相对于该复合烧结体而言为20质量%以上且50质量%以下。据此,能够使硅粒子粗大化,从而能够提高复合烧结体的耐氧化性。
Composite sintered body, honeycomb structure, electrically heated catalyst, and method for producing composite sintered body
The invention relates to a composite sintered body, a honeycomb structure, an electrically heated catalyst, and a method for manufacturing the composite sintered body, and aims to improve the oxidation resistance of the composite sintered body. The composite sintered body includes a silicon phase, a cordierite phase, and a high-resistance silicon carbide phase. The content of silicon in the composite sintered body is from 30% by mass to 50% by mass (inclusive) with respect to the composite sintered body. The content of cordierite in the composite sintered body is from 10% by mass to 50% by mass (inclusive) with respect to the composite sintered body. The content of the high-resistance silicon carbide in the composite sintered body is from 20% by mass to 50% by mass (inclusive) with respect to the composite sintered body. Therefore, the silicon particles can be coarsened, and the oxidation resistance of the composite sintered body can be improved.
本发明涉及复合烧结体、蜂窝结构体、电加热催化器及复合烧结体的制造方法,其课题在于,提高复合烧结体的耐氧化性。复合烧结体包含:硅相、堇青石相、以及高阻碳化硅相。该复合烧结体中的硅的含有率相对于该复合烧结体而言为30质量%以上且50质量%以下。该复合烧结体中的堇青石的含有率相对于该复合烧结体而言为10质量%以上且50质量%以下。该复合烧结体中的高阻碳化硅的含有率相对于该复合烧结体而言为20质量%以上且50质量%以下。据此,能够使硅粒子粗大化,从而能够提高复合烧结体的耐氧化性。
Composite sintered body, honeycomb structure, electrically heated catalyst, and method for producing composite sintered body
复合烧结体、蜂窝结构体、电加热催化器及复合烧结体的制造方法
HOSODA KAZUYA (Autor:in) / ATSUJI KYOHEI (Autor:in) / YAMAMOTO KISUKE (Autor:in) / TOMITA TAKAHIRO (Autor:in)
19.09.2023
Patent
Elektronische Ressource
Chinesisch
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