ABLATION-RESISTANT HIGH-ENTROPY CARBIDE-HIGH-ENTROPY DIBORIDE-SILICON CARBIDE MULTIPHASE CERAMIC AND PREPARATION THEREOF: Fid-Bau Portal

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ABLATION-RESISTANT HIGH-ENTROPY CARBIDE-HIGH-ENTROPY DIBORIDE-SILICON CARBIDE MULTIPHASE CERAMIC AND PREPARATION THEREOF

HAO WEI / CHEN XINYUE / ZHOU CHUNNI / QIN XIAOXIAN / WANG DONGYUN

diboride-silicon carbide (SiC) multiphase ceramic, including: (S1) mixing a transition metal oxide mixed powder, nano carbon black and a silicon hexaboride (SiB6) powder to obtain a precursor powder; and (S2) subjecting the precursor powder to pressureless sintering to obtain the high-entropy carbide-high-entropy diboride-SiC multiphase ceramic with a relative density of 96% or more.

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ABLATION-RESISTANT HIGH-ENTROPY CARBIDE-HIGH-ENTROPY DIBORIDE-SILICON CARBIDE MULTIPHASE CERAMIC AND PREPARATION THEREOF

HAO WEI / CHEN XINYUE / ZHOU CHUNNI / QIN XIAOXIAN / WANG DONGYUN

diboride-silicon carbide (SiC) multiphase ceramic, including: (S1) mixing a transition metal oxide mixed powder, nano carbon black and a silicon hexaboride (SiB6) powder to obtain a precursor powder; and (S2) subjecting the precursor powder to pressureless sintering to obtain the high-entropy carbide-high-entropy diboride-SiC multiphase ceramic with a relative density of 96% or more.

ABLATION-RESISTANT HIGH-ENTROPY CARBIDE-HIGH-ENTROPY DIBORIDE-SILICON CARBIDE MULTIPHASE CERAMIC AND PREPARATION THEREOF

HAO WEI / CHEN XINYUE / ZHOU CHUNNI / QIN XIAOXIAN / WANG DONGYUN

diboride-silicon carbide (SiC) multiphase ceramic, including: (S1) mixing a transition metal oxide mixed powder, nano carbon black and a silicon hexaboride (SiB6) powder to obtain a precursor powder; and (S2) subjecting the precursor powder to pressureless sintering to obtain the high-entropy carbide-high-entropy diboride-SiC multiphase ceramic with a relative density of 96% or more.

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Titel:

ABLATION-RESISTANT HIGH-ENTROPY CARBIDE-HIGH-ENTROPY DIBORIDE-SILICON CARBIDE MULTIPHASE CERAMIC AND PREPARATION THEREOF

Beteiligte:

HAO WEI (Autor:in) / CHEN XINYUE (Autor:in) / ZHOU CHUNNI (Autor:in) / QIN XIAOXIAN (Autor:in) / WANG DONGYUN (Autor:in)

Erscheinungsdatum:

01.06.2023

Medientyp:

Patent

Format:

Elektronische Ressource

Sprache:

Englisch

Klassifikation:

IPC: C04B Kalk , LIME

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