MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder

 

Overview of MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder

MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder is a unique ceramic material powder composed of titanium, aluminum, and nitrogen elements with a MAX phase structure. This powder has high hardness, melting point, excellent oxidation resistance, and chemical stability. 

(MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder)

Features of MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder

Titanium Aluminum Nitride Powder Properties
Other Names	Titanium carbide/Aluminum nitride MXene, Advanced Max/Mxene Powder, Ti:Al:N, Ti4AlN3 powder
CAS No.	N/A
Compound Formula	Ti4AlN3
Molecular Weight	260.449
Appearance	Gray to Black Powder
Melting Point	N/A
Boiling Point	N/A
Density	N/A
Solubility in H2O	N/A
Thermal Expansion	N/A
Titanium Aluminum Nitride Powder Health & Safety Information
Signal Word	N/A
Hazard Statements	N/A
Hazard Codes	N/A
Risk Codes	N/A
Safety Statements	N/A
Transport Information	N/A

 Parameter table of MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder

Product Name	MF	Purity	Particle Size	Molecular Weight	Melting Point	Color
Titanium Aluminum Nitride	Ti4AlN3	99%	200mesh,400mesh	N/A	N/A	Gray Black

Applications of MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder

MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder has a variety of excellent performance. Therefore, it has a wide range of applications in multiple fields. The following are its main application areas:

 High-temperature structure and wear-resistant materials:Ti4AlN3 powder is highly suitable for manufacturing structural components at high temperatures, such as aviation engines, rocket nozzles, and high-temperature stoves, due to its high melting point, hardness, and excellent oxidation resistance.

In terms of wear-resistant materials, Ti4AlN3 powder can be used as a coating or additive to improve the wear resistance of tools and parts and extend their service life.

Applications of MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder

Cutting tools and cutting tools:Ti4AlN3 powder is an ideal material for manufacturing high-performance cutting tools due to its high hardness and excellent thermal stability. It is especially suitable for high-speed cutting and machining of hard materials.

 Electronic devices and integrated circuits:Ti4AlN3 powder has excellent conductivity and thermal stability. It can manufacture electronic devices and integrated circuits under high-temperature working conditions, improving equipment performance and reliability.

 Ceramic composite materials:Ti4AlN3 powder can serve as a reinforcing phase for ceramic composites, improving their mechanical properties and thermal stability. It is also used to prepare high-performance ceramic matrix composites.

 Protective coatings and films:Ti4AlN3 powder can be used to prepare protective coatings and films, protect metals or other materials from high temperature, oxidation, and corrosion, and improve materials’ service life.

 Energy and Environmental Protection:In the energy field,Ti4AlN3 powder may improve energy conversion efficiency by being used to manufacture high-temperature fuel cells, solar collectors, and other equipment.

 In environmental protection, its excellent chemical stability may contribute to the development of new catalysts or adsorption materials for environmental applications such as wastewater treatment or air purification. 

Production Method of MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder

The production methods of MAX special ceramics material titanium aluminum nitride Ti₄AlN₃ powder mainly include the following:

Solid-State Reaction Method

• Process: Mix titanium powder, aluminum powder and nitrogen-containing substances in a certain proportion. Then, heat them at high temperatures in a nitrogen atmosphere. The reactants undergo a series of chemical reactions to form Ti₄AlN₃ powder.
• Advantages: Simple process, easy to operate.
• Disadvantages: High temperature is required, and the reaction time is long.

Chemical Vapor Deposition (CVD)

• Process: Use titanium, aluminum and nitrogen-containing gaseous precursors. They are introduced into a reaction chamber and react on a substrate surface at high temperatures. The reaction products deposit on the substrate to form Ti₄AlN₃ powder.
• Advantages: Can precisely control the composition and microstructure of the powder.
• Disadvantages: The equipment is complex and the production cost is high.

Plasma Spraying Method

• Process: Inject a mixture of titanium, aluminum and nitrogen-containing materials into a plasma torch. The materials are melted and atomized by high-temperature plasma, and then quickly solidify in the air to form Ti₄AlN₃ powder.
• Advantages: High production efficiency, can produce powders with different particle sizes.
• Disadvantages: The powder quality is affected by many factors, and the process control is difficult.

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 MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder, please feel free to contact us or click on the needed products to send an inquiry. 

 Storage Condition of MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder

1) Store in a dry environment at room temperature.

2) Avoid damp and high temperature.

3) Use immediately after opening the inner packing bag.

Payment of MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder

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

Package and shipment of MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder

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

 5 FAQs of MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder

Q1

How environmentally friendly and safe is Ti ₄ AlN æ powder?

Answer:When using Ti ₄ AlN æ powder, relevant safety operating procedures should be followed to avoid inhaling dust or contact with its skin. At the same time, waste should be properly disposed of to ensure that it does not negatively impact the environment. Although Ti ₄ AlN æ powder has good chemical stability, attention should still be paid to its environmental and safety aspects during preparation and use.

 

Q2

What are the preparation methods for Ti ₄ AlN æ powder?

Answer:The preparation methods of Ti ₄ AlN æ powder include high-temperature solid-state reaction, chemical vapor deposition, and self-propagating high-temperature synthesis. Each method has advantages and disadvantages, such as cost, yield, purity, etc. The choice of method depends on specific application requirements and process conditions.

 

Q3

What are the applications of Ti ₄ AlN æ powder?

Answer:Ti ₄ AlN æ powder has applications in aerospace, cutting tools, electronic devices, ceramic composites, and other fields due to its high hardness, melting point, good chemical stability, and thermal stability. Specific application forms may include coatings, additives, or structural components.

 

Q4

What is the high-temperature resistance of Ti ₄ AlN æ powder?

Answer:Ti ₄ AlN æ powder has excellent high-temperature resistance and can maintain its mechanical properties and chemical stability in high-temperature environments. This makes its application in high-temperature working environments extremely advantageous.

 

Q5

What is the price and supply situation of Ti ₄ AlN æ powder?

Answer:Due to the complex preparation process and high cost of Ti ₄ AlN æ powder, its price is usually higher. The supply situation may be influenced by various factors such as production processes, market demand, and raw material supply. When purchasing, it is necessary to consider factors such as price, purity, and particle size comprehensively.