CM6195 Titanium Aluminum Carbide Ti3AlC2 CAS No. 196506-01-1

Catalog No.	CM6195
CAS Number	196506-01-1
Chemical Formula	Ti3AlC2
Powder Size	0.8-10 μm
Form	Dark grey powder

Titanium Aluminum Carbide (CAS: 196506-01-1) offers a unique combination of ceramic hardness and metallic ductility, making it ideal for high-performance applications. Stanford Advanced Materials (SAM) offers high-quality Titanium Aluminum Carbide with competitive pricing.

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Description

Specification

Titanium Aluminum Carbide Description

Titanium Aluminum Carbide offers a unique combination of ceramic hardness and metallic ductility, making it ideal for high-performance applications. Its exceptional electrical conductivity, thermal stability, oxidation resistance, and wear resistance suit it for use in aerospace, nuclear, and high-temperature environments, as well as in electrochemical devices. With its self-healing properties and ability to withstand extreme conditions, Ti₃AlC₂ is a reliable material solution for industries requiring durability, efficiency, and long-term performance.

Titanium Aluminum Carbide Specification

CAS Number	196506-01-1
Chemical Formula	Ti3AlC2
Form	dark grey powder
Powder Size	0.8-10 m
Melting Point	2000℃

Chemical Composition %

Ti	C	Al	Other Impurities
73.6	12.2	13.7	0.5

Ti3AlC2 Technical Parameters

Item		Value
Mechanical properties	Compressive strength (MPa)	764
	Flexural strength (MPa)	375±15
	Fracture toughness (MPa·m^1/2)	7.2
	Vickers hardness (GPa)	3.5
	Young's modulus (GPa)	297
Electrical properties	Electrical conductivity (×10⁶S·m^-1)	2.9 (25℃)
	Electrical conductivity (×10⁶S·m^-1)	0.85 (800℃)
	Resistance temperature coefficient (×10^-3K^-1)	3.1
Thermal properties	Thermal expansion coefficient (×10^-6K^-1)	9

Titanium Aluminum Carbide Applications

High-temperature applications: In jet engines and turbines.
Aerospace industry: Due to its combination of light weight and high strength.
Nuclear reactors: As cladding and other components due to its radiation resistance.
Electrochemical applications: In supercapacitors and batteries because of its conductivity.
Tribological applications: In mechanical components that experience wear due to its wear resistance and self-lubricating nature.

Titanium Aluminum Carbide Safety Information

Signal Word	Danger
Hazard Statements	H228-H261-H315-H319-H335
Hazard Codes	Xi, F
Precautionary Statements	P210-P231+P232-P261-P305+P351+P338-P405-P501
Risk Codes	N/A
Safety Statements	N/A
Transport Information	UN1394 4.3/ PG II
GHS Pictograms

Titanium Aluminum Carbide Packing

Our Titanium Aluminum Carbide is carefully handled during storage and transportation to preserve the quality of our product in its original condition.

10g/50g/100g, one package

FAQs

1. What is Titanium Aluminum Carbide (Ti3AlC2)?

Titanium Aluminum Carbide (Ti3AlC2) is a member of the MAX phase family of materials, which are a class of materials that consist of layered structures made up of transition metals (like titanium), main group elements (like aluminum), and carbon. Ti3AlC2 is a ceramic-metal composite material with exceptional properties like high thermal conductivity, high strength, and excellent corrosion resistance.

2. What are the key properties of Titanium Aluminum Carbide (Ti3AlC2)?

High Strength: Ti3AlC2 has high mechanical strength, particularly at high temperatures.
Thermal Stability: The material exhibits good thermal stability and high thermal conductivity, making it useful for high-temperature applications.
Good Electrical Conductivity: Unlike traditional ceramics, Ti3AlC2 shows good electrical conductivity, similar to metals.

3. What are the main uses of Titanium Aluminum Carbide (Ti3AlC2)?

Ti3AlC2 is used in various high-performance applications due to its unique combination of properties:

Aerospace and Aviation: Its high strength and thermal stability make it suitable for use in high-performance components for aerospace and aviation industries, such as in turbine blades, heat shields, and exhaust components.
Cutting Tools: Ti3AlC2 is used in manufacturing cutting tools and wear-resistant coatings due to its excellent hardness, machinability, and strength at high temperatures.
Nuclear Industry: Due to its high thermal conductivity and radiation resistance, Ti3AlC2 is explored for use in nuclear reactors, particularly in structural materials.
Electronics: The material's good electrical conductivity makes it suitable for use in certain electronics applications, such as in electrodes and conductors.