MAX Special Ceramics Material Titanium Tin Carbide Ti2SnC Powder

Overview of MAX Special Ceramics Material Titanium Tin Carbide Ti2SnC Powder

Titanium tin carbide, Ti2SnC, powder is a unique MAX phase ceramic material that exhibits exceptional properties, making it a standout in the field of advanced materials. MAX phase ceramics, known for their unique layered crystal structure, combine the best of metals and ceramics, offering high mechanical strength, thermal stability, and oxidation resistance. Ti2SnC powder, in particular, stands out due to its high hardness, excellent wear resistance, and good electrical conductivity. This material has garnered significant interest in various industries for its potential to revolutionize material applications.

(MAX Special Ceramics Material Titanium Tin Carbide Ti2SnC Powder)

Characteristics of Titanium Tin Carbide Ti2SnC Powder

High Hardness and Wear Resistance: Ti2SnC powder boasts exceptional hardness, making it suitable for use in abrasive environments where durability is crucial.

Excellent Thermal Stability: The material maintains its structural integrity even under extreme temperatures, ensuring reliable performance in high-temperature applications.

Good Oxidation Resistance: Ti2SnC powder’s resistance to oxidation extends its lifespan and enhances its performance in oxidizing environments.

High Firmness and Use Resistance: Ti2SnC powder flaunts phenomenal firmness, making it appropriate for usage in rough settings where sturdiness is critical.

Superb Thermal Security: The product keeps its architectural honesty also under severe temperature levels, guaranteeing trustworthy efficiency in high-temperature applications.

Parameter table of Titanium Tin Carbide Ti2SnC Powder

Titanium Tin Carbide Powder Properties
Other Names	TiSnC, Ti/Sn/TiC, Ti2SnC powder
CAS No.	N/A
Compound Formula	Ti2SnC
Molecular Weight	226.45
Appearance	Dark Gray to Black Powder
Melting Point	N/A
Boiling Point	N/A
Density	6.24 g/cm3
Solubility in H2O	N/A
Thermal Expansion	N/A
Titanium Tin Carbide 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

Application of Titanium Tin Carbide Ti2SnC Powder

Reducing and Wear-Resistant Devices: Ti2SnC powder’s high firmness and put on resistance make it perfect for producing reducing devices and wear-resistant parts.
High-Temperature Applications: Its outstanding thermal security makes certain dependable efficiency in high-temperature atmospheres, such as in jet engines or rocket nozzles.
Electric Parts: The product’s excellent electric conductivity makes it ideal for usage in electric calls, electrodes, and various other electric elements.
Safety Coatings: Ti2SnC powder can be made use of to develop safety finishes on surface areas, giving improved wear and rust resistance.
Advanced Porcelain Composites: It can be integrated right into ceramic compounds to enhance their mechanical homes and boost their efficiency in rough settings.

Cutting and Wear-Resistant Tools

 High-Temperature Applications

 Electrical Components

Protective Coatings

Advanced Ceramic Composites

 

Production Method of Titanium Tin Carbide Ti2SnC Powder

Titanium tin carbide powder is typically produced through a solid-state reaction. High-purity titanium (Ti), tin (Sn), and carbon (C) powders are mixed in a 2:1:1 ratio and ball-milled for homogeneity. The mixture is heated in a furnace at 1200°C – 1400°C under an inert atmosphere (e.g., argon) for several hours to form Ti₂SnC. The reaction proceeds as follows:

2Ti + Sn + C → Ti₂SnC}2Ti + Sn + C → Ti₂SnC

The sintered product is crushed, ground, and sieved to achieve the desired particle size. The powder is stored in airtight containers under an inert atmosphere to prevent oxidation. This method ensures high-quality Ti₂SnC powder for high-temperature ceramics, coatings, and advanced materials.

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 Tin Carbide Ti2SnC Powder, please feel free to contact us or click on the needed products to send an inquiry.

Storage Condition of Titanium Tin Carbide Ti2SnC Powder

Ti₂SnC powder should be stored in a cool, dry, and well-ventilated environment to prevent oxidation and moisture absorption. The ideal storage temperature is between **10°C to 30°C (50°F to 86°F). Avoid exposure to high humidity, direct sunlight, or corrosive substances such as acids or alkalis. Store the powder in airtight containers made of non-reactive materials (e.g., glass or stainless steel). Use inert gas (e.g., argon or nitrogen) to fill the container if necessary. Regularly inspect for signs of oxidation or contamination. Proper storage ensures the powder retains its structural integrity and performance for applications in high-temperature ceramics and advanced materials.

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 Tin Carbide Ti2SnC Powder

Q1:

What are the primary uses of Titanium Tin Carbide Ti2SnC powder?

Re: Titanium Tin Carbide Ti2SnC powder discovers varied applications throughout several markets. Its outstanding firmness and put on resistance make it a prime selection for making reducing devices and wear-resistant parts. Furthermore, its thermal security and oxidation resistance are vital in high-temperature settings, such as in aerospace design. Electric applications likewise gain from its great electric conductivity. Advanced Porcelain Composites: It can be included right into ceramic compounds to enhance their mechanical buildings and improve their efficiency in extreme settings.

Q2:

How does the MAX phase crystal structure contribute to the material’s properties?

Re:Titanium Tin Carbide Ti2SnC powder has varied applications throughout several sectors. Its outstanding firmness and use resistance make it a prime selection for producing reducing devices and wear-resistant parts. Furthermore, its thermal security and oxidation resistance are essential in high-temperature settings, such as in aerospace design. Electric applications likewise gain from their excellent electric conductivity.
Advanced Porcelain Composites: They can be integrated right into ceramic compounds to enhance their mechanical residential properties and boost their efficiency in extreme settings.

Q3:

What are the advantages of using Ti2SnC powder compared to traditional ceramic materials?

Re: Ti2SnC powder provides a number of benefits over standard ceramic products. Its high solidity and use resistance exceed several traditional porcelains, while its exceptional thermal security and oxidation resistance make certain longer life span in severe atmospheres. In addition, its great electric conductivity makes it ideal for a broader series of applications than typical non-conductive porcelains.

Q4:

Is Ti2SnC powder difficult to process?

Re: Ti2SnC powder uses numerous benefits over typical ceramic products. Its high firmness and put-on resistance go beyond numerous traditional porcelains. In contrast, its exceptional thermal security and oxidation resistance ensure longer life spans in severe settings. Furthermore, its excellent electric conductivity makes it ideal for a more extensive series of applications than typical non-conductive porcelains.

Q5:

Are there any environmental considerations when using Ti2SnC powder?

Re: Ti2SnC powder, like any type of product, must be managed and taken care of sensibly to lessen ecological influence. Correct disposal and reusing methods can guarantee that its usage does not adversely influence the setting. Furthermore, its lengthy life span and high performance add to lowering the general ecological problem connected with constant substitutes or fixings.