Titanium Silicon Carbide powder is a typical MAX phase layered ceramic material, possessing the dual properties of both metals and ceramics. This material is widely used in the preparation of high-temperature structural ceramics, conductive ceramics, composite materials, and sputtering and sintering targets.
We can provide Ti3SiC2 powder with stable composition and high phase purity, suitable for various applications including scientific research, industrial sintering, and target preparation. For technical data or specifications, please contact us for detailed information.
MAX Phase Layered Crystal Structure
Combines metallic conductivity with ceramic high-temperature resistance
Excellent thermal stability and thermal shock resistance
Good sintering activity and densification ability
Suitable for high-temperature, vacuum, and inert atmosphere environments
Can be used as sputtering targets and raw materials for functional ceramics
High-Temperature Structural Ceramics: Can be used to prepare high-temperature and thermal shock resistant structural ceramic components, suitable for high-temperature service environments.
Conductive and Functional Ceramic Materials: Due to their high electrical and thermal conductivity, they are commonly used in conductive ceramics and functional composite ceramic systems.
Composite Reinforcing Phase: They can be introduced as reinforcing phases into metal or ceramic matrix composites to improve the overall mechanical and thermal properties of the materials.
Sputtering and Sintering Target Preparation: Suitable for hot pressing, SPS, and other processes, used to prepare high-density sputtering targets and functional targets.
Scientific Research and Materials Development: Widely used in the research and development of MAX phase materials, MXene precursors, and novel high-temperature materials.
Q1: In which application areas is Titanium Silicon Carbide Powder mainly used?
A1: Widely used in the preparation of structural ceramics, high-temperature components, conductive ceramics, composite reinforcing phases, and raw materials for sputtering and sintering targets. It has significant value in aerospace, semiconductor, energy, and high-temperature engineering fields.
Q2: What are the advantages of Ti3SiC2 powder compared to traditional ceramic materials?
A2: This material combines metallic and ceramic properties, exhibiting excellent electrical and thermal conductivity, thermal shock resistance, and machinability, while maintaining high high-temperature resistance and mechanical stability. It is a typical MAX phase material.
Q3: Is Ti3SiC2 powder suitable for sputtering targets or dense ceramic sintering?
A3: Yes, this powder possesses good sintering activity and phase stability, making it suitable for processes such as hot pressing and spark plasma sintering (SPS). It is commonly used to prepare sputtering targets or high-density ceramic structures.
Q4: Is Ti3SiC2 powder stable under high-temperature or vacuum conditions?
A4: It exhibits excellent high-temperature stability in inert atmospheres and vacuum environments, maintaining structural integrity and performance consistency even at high temperatures, making it suitable for high-temperature and vacuum-related applications.
Each batch is supplied with:
Certificate of Analysis (COA)
Technical Data Sheet (TDS)
Material Safety Data Sheet (MSDS)
Third-party testing reports available upon request
We focus on a stable supply of raw materials for functional ceramics and advanced materials, emphasizing material consistency, technical traceability, and application adaptability, providing reliable support for the research and industrial application of Ti3SiC2 powder.
Molecular formula: Ti₃SiC₂
Molecular weight: 195.87 g/mol
Appearance: Gray powder
Density: Approximately 4.5 g/cm³
Crystal structure: Hexagonal (P6₃/mmc, MAX phase)
Inner Packaging: Vacuum-sealed bags and boxed to prevent contamination and moisture.
Outer Packaging: Cartons or wooden crates selected based on size and weight.
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