MAX Phase Series

  • (TiZrVNbTa)2AlC MAX Phase Powder

    (TiZrVNbTa)2AlC MAX Phase Powder (TiZrVNbTa)2AlC MAX Phase Powder is a high-entropy carbide combining multiple transition metals, offering outstanding thermal stability, oxidation…

  • Al-Ti3AlC2 MAX Phase Powder

    Al-Ti3AlC2 MAX Phase Powder Al-Ti3AlC2 MAX Phase Powder is a titanium aluminum carbide material with excess aluminum, offering improved mechanical strength,…

  • Cr2VTiAlC2 MAX Phase Powder

    Cr2VTiAlC2 MAX Phase Powder Cr2VTiAlC2 MAX Phase Powder is a layered ceramic-metallic material offering excellent conductivity, oxidation resistance, and mechanical stability…

  • Ti2TaAlC2 MAX Phase Powder

    Ti2TaAlC2 MAX Phase Powder Ti2TaAlC2 MAX Phase Powder is a high-performance layered ceramic material combining excellent thermal and electrical conductivity with…

  • Ti2VAlC2 MAX Phase Powder

    Ti2VAlC2 MAX Phase Powder Ti2VAlC2 MAX Phase Powder is a gray-black layered carbide that exhibits high thermal stability, good conductivity, and…

  • Ti2AlN MAX Phase Powder

    Ti2AlN MAX Phase Powder Ti2AlN MAX Phase Powder is a nanolaminated material with combined metallic and ceramic properties, offering high thermal…

  • V2AlC MAX Phase Powder

    V2AlC MAX Phase Powder V2AlC MAX Phase Powder is a gray-black, high-purity (≥98%) layered carbide with good conductivity, stability, and strength,…

  • Cr2TiAlC2 MAX Phase Powder

    Cr2TiAlC2 MAX Phase Powder Cr2TiAlC2 MAX Phase Powder is a ceramic-metallic material that combines high conductivity, oxidation resistance, and strong mechanical…

  • Ti3SiC2 MAX Phase Powder

    Ti3SiC2 MAX Phase Powder Ti3SiC2 MAX Phase Powder combines metallic conductivity with ceramic durability, offering high thermal stability, oxidation resistance, and…