Titanium Carbide

Max phase Ti3AlC2 titanium aluminium carbide powder

Titanium Carbide embodies the pinnacle of advanced ceramic technology, offering an unparalleled blend of hardness, wear resistance, and thermal stability.

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Overview of Max phase Ti3AlC2 titanium aluminium carbide powder

Titanium Carbide (TiC) is a technical ceramic material renowned for its exceptional hardness, wear resistance, and high melting point. Composed of titanium and carbon atoms, it forms a part of the wider family of transition metal carbides. Its unique combination of properties makes it a versatile and valuable component in various industrial applications where extreme conditions necessitate robust and durable materials.

Features of Max phase Ti3AlC2 titanium aluminium carbide powder

  1. Exceptional Hardness: With a Vickers hardness ranging from 2000 to 3200 Hv, TiC ranks among the hardest materials, surpassing many steels and rivaling tungsten carbide.

  2. High Melting Point: Boasting a melting point of approximately 3160°C, titanium carbide is ideal for high-temperature applications where stability and strength are crucial.

  3. Oxidation Resistance: Forms a protective oxide layer at elevated temperatures, slowing down further oxidation and enhancing its performance in oxidative environments.

  4. Chemical Stability: Resistant to most acids and alkalis, TiC maintains its integrity in corrosive conditions, excluding hydrofluoric acid and strong alkalis.

  5. Thermal Conductivity: Exhibits good thermal conductivity, facilitating heat dissipation and enhancing performance in high-heat-load applications.

  6. Density: Despite its hardness, titanium carbide has a relatively low density of about 4.93 g/cm³, contributing to its use in lightweight yet durable structures.

Max phase Ti3AlC2 titanium aluminium carbide powder

(Max phase Ti3AlC2 titanium aluminium carbide powder)

Parameters of Max phase Ti3AlC2 titanium aluminium carbide powder

The maximum phase Ti3AlC2 titanium aluminum carbide powder is characterized by the presence of a high hardness and wear resistance, as well as excellent thermal stability and corrosion resistance.
The specific parameters for this powder can vary depending on factors such as particle size, particle shape, processing method, and composition of the final product. However, some common parameters that may be relevant include:

* Particle size: The particle size of Ti3AlC2 titanium aluminum carbide powder affects its hardness and wear resistance. Smaller particles typically result in a higher hardness but also lower wear resistance.
* Particle shape: The shape of the particle can affect its surface area and mechanical properties. For example, a fine powder typically results in a larger surface area and better wear resistance than a rough powder.
* Processing method: The way in which the powder is processed can affect its properties, including the amount of material that remains in the final product and the degree to which it is refined or altered.
* Composition: The composition of the final product can also affect its properties, including the specific properties of each grain in the powder.

It’s important to note that these are just general guidelines and specific values will depend on the specific application and requirements of the powder.

Max phase Ti3AlC2 titanium aluminium carbide powder

(Max phase Ti3AlC2 titanium aluminium carbide powder)

Applications of Max phase Ti3AlC2 titanium aluminium carbide powder

  1. Cutting Tools: Integrated into tool bits, inserts, and milling cutters due to its wear resistance and heat tolerance, enhancing tool life and machining efficiency.

  2. Metalworking: As hardfacing coatings for dies, molds, and wear parts subjected to severe abrasive or erosive conditions.

  3. Cemented Carbides: Mixed with other carbides and binders to form cemented carbide composites for drill bits, end mills, and other cutting tools.

  4. Abrasive and Wear-Resistant Components: Used in pump parts, valve components, and seals where resistance to wear and corrosion is vital.

  5. Military Armor: Incorporated into armor plating due to its hardness and lightweight properties, offering enhanced protection without adding excessive weight.

  6. Chemical Processing Equipment: For parts that come into contact with corrosive chemicals, benefiting from TiC’s resistance to chemical attack.

Company Profile

MyCarbides is a trusted global chemical material supplier & manufacturer with over 12-year-experience in providing super high-quality carbides and relative products.

The company has a professional technical department and Quality Supervision Department, a well-equipped laboratory, and equipped with advanced testing equipment and after-sales customer service center.

If you are looking for high-quality carbide materials and relative products, please feel free to contact us or click on the needed products to send an inquiry.

Payment Methods

L/C, T/T, Western Union, Paypal, Credit Card etc.

Shipment

It could be shipped by sea, by air, or by reveal ASAP as soon as repayment receipt.

FAQs of Max phase Ti3AlC2 titanium aluminium carbide powder

Q: How is Max phase Ti3AlC2 titanium aluminium carbide powder manufactured?
A: Max phase Ti3AlC2 titanium aluminium carbide powder is typically produced through a process called carbothermal reduction, which involves reacting titanium dioxide with carbon at high temperatures.

Q: Is Max phase Ti3AlC2 titanium aluminium carbide powder biocompatible?
A: While pure titanium is highly biocompatible, the biocompatibility of titanium carbide depends on the specific application and the potential release of titanium ions. Further testing is necessary for biomedical applications.

Q: How does Max phase Ti3AlC2 titanium aluminium carbide powder compare to tungsten carbide in terms of hardness and toughness?
A: Both materials are hard, but tungsten carbide (WC) is slightly harder and tougher than titanium carbide, making WC more commonly used in tooling applications.

Q: Can Max phase Ti3AlC2 titanium aluminium carbide powder be machined?
A: Due to its extreme hardness, traditional machining methods are challenging. Instead, TiC components are often formed through powder metallurgy, sintering, or by applying coatings via thermal spray or Physical Vapor Deposition (PVD).

Q: What are the main advantages of using Max phase Ti3AlC2 titanium aluminium carbide powder in cutting tools?
A: TiC enhances tool life, allows for higher cutting speeds, and improves wear resistance, especially in applications involving high temperatures or abrasive materials.

Max phase Ti3AlC2 titanium aluminium carbide powder

(Max phase Ti3AlC2 titanium aluminium carbide powder)

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