Titanium Tin Carbide powder is a typical MAX phase material, combining the properties of both metals and ceramics, exhibiting excellent electrical conductivity and thermal stability. This material is widely used in functional ceramics, composite materials, and advanced materials research.
We can provide compositionally stable and structurally controllable Ti2SnC powder for research and materials development applications. Please contact us.
Product Highlights
Typical MAX Phase (M₂AX) Material
Dual Metal-Ceramic Properties
Excellent Electrical Conductivity
Outstanding Thermal Stability
Layered Crystal Structure
Superior Processability to Traditional Ceramics
Stable Batch Consistency
MAX Phase and Layered Material Research: Widely used in the study of the structure, properties, and phase transformation mechanisms of MAX phase materials, and is an important raw material for exploring layered ceramics.
Functional Composite Materials: As a reinforcing phase or functional filler, it can be used to prepare composite material systems with electrical conductivity or high-temperature resistance.
High-Temperature Structural Material Research: Exhibits good high-temperature stability, suitable for studying material properties and structural stability under high-temperature environments.
Conductive Ceramic Materials: Ti₂SnC powder’s metallic conductivity makes it suitable for developing conductive ceramics and related functional materials.
Materials Science and Basic Research: Commonly used in universities and research institutions for research on novel MAX phase materials and their derivatives.
Q1: To which category of material does Titanium Tin Carbide belong?
A1: Ti₂SnC belongs to the MAX phase (M₂AX) material category, possessing both the machinability of metals and the high-temperature resistance of ceramics.
Q2: What are the advantages of Titanium Tin Carbide powder compared to traditional ceramic materials?
A2: Compared to traditional ceramics, Ti₂SnC maintains high-temperature stability while exhibiting better conductivity and thermal shock resistance.
Q3: Is Ti₂SnC powder mainly used in research or industry?
A3: Currently, it is mainly used in research and materials development, and also to explore its potential industrial applications in functional materials and composite materials.
Q4: Is Ti₂SnC powder suitable for high-temperature environments?
A4: This material exhibits structural stability under high-temperature conditions, making it suitable for research on high-temperature related material properties.
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 specialize in the stable preparation and quality control of MAX phase and functional inorganic powder materials, providing reliable support for the research and application development of Ti₂SnC powder.
Molecular Formula: Ti₂SnC
Molecular Weight: 195.97 g/mol
Appearance: Gray powder
Density: Approximately 6.8 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.
If you need any service, please contact us
