Mo2Ti2C3 MAX Phase Powder
Mo2Ti2C3 MAX Phase Powder
Mo2Ti2C3 MAX Phase Powder |
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Product No. | NRE-58033 |
CAS No. | NA |
Formula | Mo2Ti2C3 |
Molecular Weight | NA |
APS | < 40 μm |
Purity | 99.9% |
Form | Powder |
Mo2Ti2C3 MAX Phase Powder
Structure and Properties of Mo2TiC3
Molybdenum Titanium Carbide MO2TiC3 MAX Phase Powder is a member of the MAX phase family, specifically a 312 phase where n=2n = 2n=2. The structure of Mo2TiC3 consists of alternating layers of molybdenum titanium carbide (MoTiC) and carbon. This unique layered structure imparts several advantageous properties to Mo2TiC3, including high electrical and thermal conductivity, mechanical flexibility, and excellent chemical stability.
Key Properties:
Electrical Conductivity:
MO2TiC3 MAX Phase Powder exhibits metallic conductivity due to the presence of delocalized electrons within its structure. This property is beneficial for applications that require materials with high electrical conductivity and stability under harsh conditions.
Thermal Conductivity:
The thermal conductivity of MO2TiC3 MAX Phase Powder is significant, attributed to its metallic layers. This makes it an excellent candidate for applications in thermal management and high-temperature environments.
Mechanical Properties:
MO2TiC3 MAX Phase Powder shows a unique combination of high stiffness and toughness. Its ability to maintain structural integrity under mechanical stress and high temperatures makes it suitable for various structural applications.
Applications of Mo2TiC3
Energy Storage:
Mo2TiC3’s layered structure and high electrical conductivity make it a promising material for energy storage devices, including batteries and supercapacitors, where both high conductivity and structural stability are essential.
Aerospace and Defense:
The high-temperature stability and resistance to oxidation and corrosion of Mo2TiC3 make it ideal for aerospace and defense applications, such as components for high-performance engines and protective coatings.
Electronics:
Due to its excellent electrical properties, Mo2TiC3 can be utilized in electronic devices that require materials capable of withstanding high temperatures and aggressive environments.
Mechanical Components:
Mo2TiC3’s unique mechanical properties, such as high toughness and wear resistance, make it suitable for use in cutting tools, wear-resistant coatings, and other mechanical components that demand durability.