Our Titanium Tin Carbide (Ti₂SnC) MAX Phase Micron Powder (99+% Purity, 325 Mesh) is an advanced ceramic-metal (cermet) material offering a unique combination of high electrical conductivity, thermal stability, and mechanical toughness. As part of the MAX phase family, this powder provides exceptional oxidation resistance, self-healing properties, and damage tolerance, making it ideal for high-performance coatings, electronic applications, energy storage, and structural materials.
With its layered hexagonal structure, Ti₂SnC exhibits excellent machinability, corrosion resistance, and high thermal shock resistance, making it an excellent choice for wear-resistant coatings, high-temperature applications, and next-generation composite materials. The fine 325-mesh particle size ensures uniform dispersion and optimal processing efficiency for powder metallurgy, thermal spray, and additive manufacturing.
Key Features & Benefits:
✅ High Purity (99+%) – Ensures minimal impurities for superior material consistency and reliability.
✅ MAX Phase Material – Combines metallic conductivity with ceramic durability for multifunctional applications.
✅ Fine Particle Size (325 Mesh) – Enhances dispersibility, sintering efficiency, and composite material performance.
✅ Exceptional Thermal & Electrical Conductivity – Suitable for electronics, thermal management, and conductive coatings.
✅ High-Temperature Stability & Oxidation Resistance – Ideal for aerospace, energy, and industrial applications.
✅ Self-Healing & Damage Tolerant Properties – Extends material lifespan in harsh environments.
✅ Versatile Industrial Applications – Used in cutting-edge materials research, wear-resistant coatings, and next-gen electronics.
Upgrade your advanced material applications with our premium Titanium Tin Carbide (Ti₂SnC) MAX Phase Powder. Whether you need high-performance coatings, thermal-resistant composites, or conductive materials, this powder ensures exceptional durability, stability, and efficiency.
Order today and experience the next level of advanced MAX phase materials!
