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MAX phase ceramic materials are a class of layered compounds, typically composed of a transition metal, an A-group element (usually from group 13 or 14), and carbon or nitrogen. These materials combine the properties of both metals and ceramics, exhibiting high strength, high-temperature resistance, oxidation resistance, and good electrical and thermal conductivity. They are widely used in aerospace, energy, and electronics.
MAX phase ceramic materials are a class of layered compounds, typically composed of a transition metal, an A-group element (usually from group 13 or 14), and carbon or nitrogen. These materials combine the properties of both metals and ceramics, exhibiting high strength, high-temperature resistance, oxidation resistance, and good electrical and thermal conductivity. They are widely used in aerospace, energy, and electronics.
Aluminium Vanadium Carbide (V2AlC) Powder is a MAX phase material with excellent thermal stability, electrical conductivity, and mechanical strength. It is used in high-temperature coatings, thermal barriers, catalysis, energy storage, and microelectronics.
Niobium Aluminum Carbide (Nb2AlC) Powder is a MAX phase ceramic with excellent high-temperature stability, mechanical strength, and thermal conductivity. It is widely used in aerospace, energy, and chemical industries for high-temperature structural materials, wear-resistant coatings, and thermal barrier applications.
Titanium Stannum Carbide (Ti2SnC) Powder is a high-performance MAX phase material with excellent conductivity, machinability, and thermal resistance, combining the advantages of metals and ceramics. It is used in aerospace, defense, nuclear energy, and electronics.
Titanium Silicon Carbide (Ti3SiC2) Powder is a MAX phase ceramic material that combines metallic conductivity and machinability with ceramic-like high-temperature strength, oxidation resistance, and thermal shock resistance. It finds applications in aerospace, defense, electric vehicles, advanced displays, and electrocatalysis.
Titanium Aluminum Carbide (Ti2AlC) Powder is a MAX phase ceramic with a unique layered structure, combining metallic conductivity with ceramic-like high-temperature strength and oxidation resistance. HM is a professional supplier and manufacturer of high-quality Ti2AlC Powder, offering customized solutions and competitive prices.
Titanium Aluminium Carbide (Ti3AlC2) Powder is a MAX phase ceramic with a layered hexagonal structure, combining metal-like electrical and thermal conductivity with ceramic-like high elasticity and mechanical strength. It is widely used in aerospace, automotive manufacturing, petrochemical industries, and high-temperature applications.
MAX Phase Ceramic Powder is a family of layered ternary carbides and nitrides that combine metal-like conductivity with ceramic-like mechanical strength and oxidation resistance. Heeger Materials is a professional supplier and manufacturer of high-quality MAX phase ceramic materials, offering customized solutions and competitive prices.
MXene Phase Powder-21 Series includes a range of advanced two-dimensional materials like Ti2CTx, V2CTx, Nb2CTx, and Mo2CTx MXene powders, available in both monolayer and multilayer forms. Heeger Materials provides high-quality MXene Phase Powder-21 Series, offering customized solutions and competitive prices.
MXene Phase Powder-32 Series includes Ti3CNTx MXene Powder and Mo2TiC2Tx MXene Powder, available in both single-layer and multi-layer forms. These advanced nanomaterials offer excellent conductivity, high surface area, and chemical stability, making them ideal for energy storage, catalysis, sensors, and high-performance coatings.
MXene Phase Powder-43 Series includes Ta4C3Tx, Nb4C3Tx, V4C3Tx, and Mo2Ti2C3Tx MXene powders, available in both multilayer and single-layer forms. These advanced nanomaterials offer outstanding conductivity, chemical stability, and tunable surface properties, making them ideal for energy storage, catalysis, and electronic applications.
MXene Phase Powder-Bimetallic Series includes TiVCTx, TiNbCTx, VNbCTx, Ti2VC2Tx, and Ti2NbC2Tx MXene powders, available in both single-layer and multi-layer forms. These advanced materials offer unique electrical, mechanical, and chemical properties for applications in energy storage, catalysis, and electronics.
MXene Phase Powder-High-Entropy Series includes TiVNbMoAlC3 and TiVCrMoAlC3 MXene Powder, available in both monolayer and multilayer forms. These high-entropy MXenes offer exceptional thermal stability, electrical conductivity, and mechanical strength, making them suitable for energy storage, catalysis, and high-performance coatings.