Max Phase Ti3AlC2 Powder Price Titanium Aluminum Carbide Powde

Overview of Titanium Aluminum Carbide

Titanium Lightweight aluminum Carbide, typically called Ti3AlC2 Max Stage, is an arising product in the field of ceramic-metal compounds. This ternary carbide displays remarkable mechanical residential properties, making it a sensible option for typical products in high-temperature and high-pressure atmospheres. Ti3AlC2 incorporates the ductility of steels with the solidity and rust resistance of porcelains, causing a product that is both solid and challenging. Its unique crystal framework and bonding attributes add to its impressive efficiency, establishing it besides various other ceramic-metal compounds.

(Titanium Aluminum Carbide Ti3AlC2 Max Phase)

Characteristics of Titanium Aluminum Carbide

Exceptional Mechanical Residences: Ti3AlC2 is highly firm, tough, and sturdy, allowing it to withstand severe loads and contortions without fracturing.

High Thermal Security: This product maintains its mechanical residential properties even at raised temperature levels, making it ideal for high-temperature applications.

Excellent Deterioration Resistance: Ti3AlC2 shows outstanding resistance to different chemical settings, withstanding deterioration from acids, bases, and oxidizing representatives.

Reduced Thickness: Contrasted to conventional ceramic products, Ti3AlC2 has a relatively reduced thickness, decreasing the total weight of parts while preserving high stamina.

Excellent Machinability: This product can be quickly machined right into complicated forms, enabling a

Parameter table of Titanium Aluminum Carbide

Titanium aluminum carbide Powder Properties
Other Names	Titanium Aluminum Carbide,Titanium-Aluminum Carbide MXene, Ti3AlC2 MAXene, Al-doped titanium carbide, TiAlC, Ti3AlC, C2AlTi3, titanium carbide aluminum composite, titanium-aluminum-carbon alloy.
CAS No.	196506-01-1
Compound Formula	Ti3AlC2
Molecular Weight	157.87
Appearance	Gray powder or solid in various forms (disc, sputtering target, custom shapes)
Melting Point	2100 °C
Solubility in water	N/A
Density	2.63 g/cm3
Purity	99.00%
Particle Size	5-10 microns
Boling point	N/A
Specific Heat	N/A
Thermal Conductivity	N/A
Thermal Expansion	N/A
Young’s Modulus	N/A
Exact Mass	194.825 g/mol
Monoisotopic Mass	194.825 g/mol
Titanium aluminum carbide Health & Safety Information
Safety Warning	Danger
Hazard Statements	H228-H261-H315-H319-H335
Flashing point	N/A
Hazard Codes	Xi, F
Risk Codes	N/A
Safety Statements	N/A
RTECS Number	N/A
Transport Information	UN1394 4.3/ PG II
WGK Germany	N/A

Applications of Titanium Aluminum Carbide Ti3Al2 Powder

Aerospace Industry: Ti3AlC2 is used in aircraft engines and spacecraft components due to its ability to withstand extreme temperatures and pressures.

 Aerospace Industry

Cutting Tools: Its high hardness and wear resistance make Ti3AlC2 an ideal material for manufacturing cutting tools that require long service lives and high precision.

 Cutting Tools

Automotive Industry: Ti3AlC2 is finding applications in automotive brake systems and engine components, where its strength and thermal stability are key requirements.

Automotive Industry

Nuclear Energy: This material’s resistance to radiation and high temperatures makes it suitable for use in nuclear reactors and associated equipment.

 Nuclear Energy

Electronic Devices: Ti3AlC2 is also used in the manufacturing of electronic devices, where its high conductivity and thermal stability are essential for maintaining optimal performance.

 Electronic Devices

 

Production Method of Titanium Aluminum Carbide Ti3AlC2 Max Phase

There are several ways to produce the Ti₃AlC₂ MAX phase. Solid-state reaction mixes Ti, Al, and C powders in stoichiometric ratios, ball-mills them, and then sinters at 1300 – 1600 °C under inert gas. Self-propagating high-temperature synthesis ignites the mixed powders and the exothermic reaction self-propagates. Hot isostatic pressing encapsulates the powder and subjects it to high temperature and pressure. Chemical vapor deposition uses gaseous precursors to deposit the phase on a substrate at high temperature.

Company Profile

RBOSCHCO  is a trusted global chemical material supplier & manufacturer with over 12-year-experience in providing super high-quality chemicals and nanomaterials, including boride powder, nitride powder, graphite powder, sulfide powder, 3D printing powder, etc.

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 Titanium Aluminum Carbide Ti3AlC2 Max Phase, please feel free to contact us or click on the needed products to send an inquiry.

Storage Condition of  Titanium Aluminum Carbide Ti3AlC2 Max Phase

Temperature level
Space – temperature level storage space : It is typically suggested to keep Ti ₃ AlC ₂ at area temperature level, generally in the variety of 15 – 25 ° C. Extreme temperature levels can possibly impact the product’s framework and homes. Heats might increase oxidation or create stage changes, while extremely reduced temperature levels could make the product extra breakable.
Stay clear of temperature level changes: Constant modifications in temperature level can bring about thermal stress and anxiety within the product, which might create splitting or deterioration gradually. As a result, it must be kept in an atmosphere with fairly secure temperature levels.

Humidity
Low – humidity environment: Ti₃AlC₂ should be stored in a dry place with a relative humidity below 60%. High humidity can cause the material to absorb moisture, which may initiate oxidation reactions on the surface. Oxidation can lead to the formation of oxide layers, altering the material’s chemical composition and surface properties. To preserve a reduced moisture setting, desiccants such as silica gel can be put in the storage space container. This aids to take in any kind of excess wetness airborne around the product.

Light
Dark storage: Although Ti₃AlC₂ is not highly sensitive to light, prolonged exposure to intense light, especially ultraviolet light, may have some minor effects on its surface properties. Therefore, it is advisable to store the material in a dark place or use opaque containers.

Isolation
Separate from reactive substances: Ti₃AlC₂ should be stored away from strong acids, strong alkalis, and other reactive chemicals. These substances can react with Ti₃AlC₂, causing corrosion or chemical degradation of the material.

Payment Term

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

 

Shipment Term

By sea, by air, by express, as customers request.

5 FAQs of Titanium Aluminum Carbide Ti3AlC2 Max Phase

Q1:

What are the key advantages of using Titanium Aluminum Carbide Ti3AlC2 Max Phase?

Re: The crucial benefits of using Titanium Light weight aluminum Carbide Ti3AlC2 Max Stage depend on its one-of-a-kind mix of residential properties. It displays outstanding thermal security, oxidation resistance, and high-temperature efficiency, making it appropriate for severe atmospheres. Furthermore, its metal ductility and machinability permit simpler handling and shaping contrasted to standard porcelains. These benefits make Ti3AlC2 an appealing product for different applications in aerospace, vehicle, electronic devices, and possibly also clinical areas.

Q2:

How does the layered structure of Ti3AlC2 contribute to its performance?

Re: The split framework of Ti3AlC2 plays an essential function in its efficiency. This anisotropic attribute enhances the product with one-of-a-kind physical residential properties in various instructions. It adds to the product’s solidity and puts on resistance, making it appropriate for usage in reducing devices and wear-resistant coverings. In addition, the split framework could influence its thermal and electric conductivity, improving its adaptability in numerous applications.

Q3:

Is Titanium Aluminum Carbide Ti3AlC2 suitable for use in high-temperature environments?

Re: Yes, Titanium Light Weight Aluminum Carbide Ti3AlC2 is appropriate for usage in high-temperature settings. Its outstanding thermal security and oxidation resistance enable it to keep its architectural stability also at raised temperature levels. This makes Ti3AlC2 a suitable prospect for applications such as engine elements and thermal security systems in the aerospace sector, where severe warming and oxidation prevail difficulties.

Q4:

Can Ti3AlC2 be used in electronic devices?

Re: Yes, Ti3AlC2 can, without a doubt, be utilized in digital gadgets because of its outstanding electric conductivity. Its metal nature enables adequate electron circulation, making it appropriate for usage in digital elements and gadgets that call for high conductivity. Furthermore, its high-temperature security guarantees trusted efficiency also under severe problems, making it an appealing product for sophisticated digital applications.

Q5:

Are there any limitations to the use of Titanium Aluminum Carbide Ti3AlC2?

Re: While Titanium lightweight aluminum Carbide Ti3AlC2 shows various beneficial residential or commercial properties, there are particular restrictions to its usage. For example, the product’s price of manufacturing can be pretty high, restricting its widespread use in some applications. Furthermore, the handling and shaping of Ti3AlC2 might call for specific strategies and tools, including the intricacy of its production.