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    DENSE COMPOSITE MATERIAL METHOD FOR PRODUCING THE SAME JOINED BODY AND MEMBER FOR SEMICONDUCTOR MANUFACTURING DEVICE

    Neue Suche nach: NAGAI ASUMI
    Neue Suche nach: NISHIMURA NOBORU
    Neue Suche nach: YAMAGUCHI HIROFUMI

    A dense composite material of the present invention comprises 43 to 63 mass% of titanium silicide, and comprises silicon carbide and titanium carbide in smaller amounts than the mass% of the titanium silicide, respectively, wherein a maximum value of distances between silicon carbide particles is 40 ㎛ or less, a standard deviation thereof is 10 or less, and open porosity thereof is 1% or less. The dense composite material has a very small difference in the coefficient of linear thermal expansion with alumina, and sufficiently high thermal conductivity, density, strength, and sintering properties.

    본 발명의 치밀질 복합 재료는, 규화티탄을 43~63 질량% 함유하고, 탄화규소 및 탄화티탄을 각각 규화티탄의 질량%보다 소량 함유하며, 탄화규소의 입자간 거리의 최대치가 40 ㎛ 이하이고 표준편차가 10 이하이며, 개기공률이 1% 이하인 것이다.

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    DENSE COMPOSITE MATERIAL METHOD FOR PRODUCING THE SAME JOINED BODY AND MEMBER FOR SEMICONDUCTOR MANUFACTURING DEVICE

    Neue Suche nach: NAGAI ASUMI
    Neue Suche nach: NISHIMURA NOBORU
    Neue Suche nach: YAMAGUCHI HIROFUMI

    A dense composite material of the present invention comprises 43 to 63 mass% of titanium silicide, and comprises silicon carbide and titanium carbide in smaller amounts than the mass% of the titanium silicide, respectively, wherein a maximum value of distances between silicon carbide particles is 40 ㎛ or less, a standard deviation thereof is 10 or less, and open porosity thereof is 1% or less. The dense composite material has a very small difference in the coefficient of linear thermal expansion with alumina, and sufficiently high thermal conductivity, density, strength, and sintering properties.

    본 발명의 치밀질 복합 재료는, 규화티탄을 43~63 질량% 함유하고, 탄화규소 및 탄화티탄을 각각 규화티탄의 질량%보다 소량 함유하며, 탄화규소의 입자간 거리의 최대치가 40 ㎛ 이하이고 표준편차가 10 이하이며, 개기공률이 1% 이하인 것이다.

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    DENSE COMPOSITE MATERIAL METHOD FOR PRODUCING THE SAME JOINED BODY AND MEMBER FOR SEMICONDUCTOR MANUFACTURING DEVICE

    Neue Suche nach: NAGAI ASUMI
    Neue Suche nach: NISHIMURA NOBORU
    Neue Suche nach: YAMAGUCHI HIROFUMI

    A dense composite material of the present invention comprises 43 to 63 mass% of titanium silicide, and comprises silicon carbide and titanium carbide in smaller amounts than the mass% of the titanium silicide, respectively, wherein a maximum value of distances between silicon carbide particles is 40 ㎛ or less, a standard deviation thereof is 10 or less, and open porosity thereof is 1% or less. The dense composite material has a very small difference in the coefficient of linear thermal expansion with alumina, and sufficiently high thermal conductivity, density, strength, and sintering properties.

    본 발명의 치밀질 복합 재료는, 규화티탄을 43~63 질량% 함유하고, 탄화규소 및 탄화티탄을 각각 규화티탄의 질량%보다 소량 함유하며, 탄화규소의 입자간 거리의 최대치가 40 ㎛ 이하이고 표준편차가 10 이하이며, 개기공률이 1% 이하인 것이다.

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    Titel:

    DENSE COMPOSITE MATERIAL METHOD FOR PRODUCING THE SAME JOINED BODY AND MEMBER FOR SEMICONDUCTOR MANUFACTURING DEVICE

    Weitere Titelangaben:

    치밀질 복합 재료, 그 제법, 접합체 및 반도체 제조 장치용 부재

    Beteiligte:

    NAGAI ASUMI (Autor:in) / NISHIMURA NOBORU (Autor:in) / YAMAGUCHI HIROFUMI (Autor:in)

    Erscheinungsdatum:

    09.08.2021

    Medientyp:

    Patent

    Format:

    Elektronische Ressource

    Sprache:

    Koreanisch

    Klassifikation:

    IPC:  C04B Kalk , LIME / B21D WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL , Bearbeiten oder Verarbeiten von Blechen, Metallrohren, -stangen oder -profilen ohne wesentliches Abtragen des Werkstoffs / H01L Halbleiterbauelemente , SEMICONDUCTOR DEVICES

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