Titanium Aluminum Carbide powder is a typical MAX phase-related material, possessing the combined properties of both metals and ceramics, such as excellent electrical conductivity and thermal stability. This material is widely used in functional ceramics, composite materials, and advanced structural materials research.
We can provide compositionally and crystalline-phase-stable Titanium Aluminum Carbide powder for research and materials development. Please contact us to discuss specific applications and processing requirements.
MAX phase-related titanium-based carbides
Metal-ceramic dual properties
Excellent electrical conductivity
Outstanding thermal stability
Layered crystal structure
Superior processability compared to traditional ceramics
Stable batch-to-batch consistency
MAX phase and layered material research: Commonly used for studying the structure, properties, and phase stability of MAX phase materials in the Titanium Aluminum Carbide system.
Functional composite materials: As a reinforcing phase or functional filler, this powder can be used to prepare composite materials with electrical conductivity, high-temperature resistance, or thermal shock resistance.
High-Temperature Structural Materials Research: Titanium Aluminum Carbide exhibits excellent structural stability at high temperatures, making it suitable for fundamental research on high-temperature service materials.
Conductive Ceramics and Functional Materials: Its combination of metallic and ceramic properties makes it valuable for the development of conductive ceramics and related functional materials.
Materials Science and Fundamental Research: Widely used in universities, research institutes, and advanced materials laboratories for the exploration of novel layered ceramic materials.
Q1: Is Titanium Aluminum Carbide a MAX phase material?
A1: Generally refers to the MAX phase or related carbide materials in the Ti–Al–C system, characterized by a layered structure.
Q2: How does Ti–Al–C material differ from traditional carbide ceramics?
A2: Compared to traditional carbide ceramics, Ti–Al–C material exhibits better conductivity and thermal shock resistance while maintaining high-temperature stability.
Q3: In which fields is Titanium Aluminum Carbide powder mainly used?
A3: Primarily used for research on MAX phase materials, development of functional composite materials, and research related to high-temperature materials and conductive ceramics.
Q4: Is this powder more suitable for scientific research or industrial applications?
A4: Currently, it is mainly used for scientific research and materials development applications, while its industrial potential in advanced engineering materials is also being explored.
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 the stable supply and quality management of titanium-based carbides and MAX phase materials, providing reliable support for the research and application of Titanium Aluminum Carbide powder.
Molecular formula: Ti₃AlC₂
Molecular weight: 194.0 g/mol
Appearance: Gray powder
Density: Approximately 4.2 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
