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Titanium Aluminum Carbide MAX-Phase (Ti3AlC2) Powder

Available Pack Size:10ml, 25gms, 50gms, 100gms, 250gms, 500gms, 1Kg & Bulk Orders
NanowizTech Titanium Aluminum Carbide MAX Phase Ti₃AlC₂ Powder manufacturer and supplier, Formula Ti₃AlC₂, CAS No. 196506-01-1, high-purity powder for MXene synthesis, advanced ceramics, aerospace, electronics, and research applications.

NanowizTech is a trusted manufacturer and supplier of high-purity Titanium Aluminum Carbide MAX Phase (Ti₃AlC₂) Powder with the chemical formula Ti₃AlC₂ and CAS No. 196506-01-1. This advanced ceramic material combines metallic conductivity with ceramic durability, offering excellent thermal stability, oxidation resistance, machinability, and electrical conductivity. Ti₃AlC₂ powder is widely used in MXene synthesis, advanced ceramics, high-temperature coatings, energy storage, aerospace, electronics, and research laboratories. NanowizTech supplies premium-quality MAX Phase powders with consistent particle size, high purity, and reliable performance for industrial and research applications worldwide.

Titanium Aluminum Carbide belongs to the unique family of MAX phase materials, which combine the desirable properties of both metals and ceramics. This exceptional material exhibits high electrical conductivity, excellent thermal conductivity, remarkable oxidation resistance, superior machinability, and outstanding thermal shock resistance.

Product

Titanium Aluminum Carbide MAX-Phase

Stock No.

NW-3205-08-123

CAS

196506-01-1

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Purity

99.99%

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Molecular Formula

Ti3AlC2

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Material Class

Max-Phase

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Form

Powder

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Molecular Weight

194.60 g/ mol

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Density

4.20 g/mL

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Melting Point

1580-1650c

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Color

Dark Gary /Black

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Solubility

Insoluble in Water

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APS

20nm-50um

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Application

Bioimaging and Biomedicine

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Main Inspect Verifier

QC In charge

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Note: Product Specification are subject to amendment and may change over time.

NanowizTech Titanium Aluminum Carbide (Ti₃AlC₂) MAX Phase Powder | High Purity | CAS No. 196506-01-1 | Leading Manufacturer & Global Supplier

Titanium Aluminum Carbide (Ti₃AlC₂) MAX Phase Powder – High Purity Advanced Ceramic Material

NanowizTech is recognized as a leading manufacturer and global supplier of Titanium Aluminum Carbide (Ti₃AlC₂) MAX Phase Powder, delivering premium-quality advanced ceramic materials to research laboratories, universities, aerospace companies, electronics manufacturers, and industrial organizations worldwide. Manufactured using advanced production technology and stringent quality control procedures, our Ti₃AlC₂ MAX Phase Powder offers exceptional purity, consistent particle size, outstanding structural stability, and reliable performance for cutting-edge scientific and industrial applications.

Titanium Aluminum Carbide belongs to the unique family of MAX phase materials, which combine the desirable properties of both metals and ceramics. This exceptional material exhibits high electrical conductivity, excellent thermal conductivity, remarkable oxidation resistance, superior machinability, and outstanding thermal shock resistance. These unique characteristics make Ti₃AlC₂ one of the most sought-after materials for advanced engineering, energy storage, aerospace, defense, electronics, and next-generation material research.

NanowizTech manufactures high-purity Ti₃AlC₂ powder to meet international quality standards while offering competitive pricing and dependable global shipping. Whether you require small laboratory quantities or bulk industrial orders, we ensure consistent quality, secure packaging, and timely worldwide delivery.

What is Titanium Aluminum Carbide Max-phase?

Titanium Aluminum Carbide (Ti₃AlC₂) is a layered ternary carbide belonging to the MAX phase family, where M represents an early transition metal (Titanium), A represents an A-group element (Aluminum), and X represents Carbon. The combination of these elements results in a material that bridges the gap between metals and ceramics by exhibiting the advantages of both material classes.

Unlike conventional ceramics, Ti₃AlC₂ demonstrates excellent electrical and thermal conductivity while maintaining high-temperature stability and mechanical strength. Compared to traditional metals, it offers significantly better oxidation resistance, corrosion resistance, and wear resistance.

These distinctive characteristics have positioned Titanium Aluminum Carbide as one of the most important materials in modern materials science, especially for the synthesis of MXenes and other advanced two-dimensional materials.

Key Features of NanowizTech Ti₃AlC₂ MAX Phase Powder

Our Titanium Aluminum Carbide MAX Phase Powder is carefully engineered to provide exceptional performance across diverse applications.

High Purity

NanowizTech supplies Ti₃AlC₂ powder with purity levels of up to 99.9%, ensuring minimal impurities for precise research results and reliable industrial performance.

Excellent Thermal Stability

The material maintains structural integrity at elevated temperatures, making it suitable for demanding thermal environments and high-temperature engineering applications.

Outstanding Electrical Conductivity

Unlike many conventional ceramic materials, Titanium Aluminum Carbide exhibits high electrical conductivity, making it valuable for electronic devices, conductive coatings, and energy-related technologies.

Superior Mechanical Strength

Ti₃AlC₂ combines ceramic hardness with metallic toughness, offering excellent resistance to mechanical stress, cracking, and fatigue.

Excellent Oxidation Resistance

The material forms a stable protective oxide layer at elevated temperatures, significantly improving durability and extending service life in oxidizing environments.

Good Thermal Conductivity

Its efficient heat transfer capability supports thermal management in advanced electronic systems, aerospace components, and industrial equipment.

Excellent Machinability

Compared with conventional ceramics, Ti₃AlC₂ can be machined more easily, reducing manufacturing costs while enabling the fabrication of complex shapes and precision components.

Reliable Particle Size Distribution

NanowizTech maintains strict quality control during production to ensure consistent particle size distribution, improving repeatability in research, additive manufacturing, and industrial processing.

Properties of Titanium Aluminum Carbide (Ti₃AlC₂)

Titanium Aluminum Carbide is widely recognized because it combines the strengths of ceramics and metals into a single material. These balanced properties make it attractive across numerous high-performance applications.

Physical Properties

  • Gray to dark gray powder
  • Hexagonal crystal structure
  • High density
  • Excellent thermal conductivity
  • Good electrical conductivity
  • Stable layered atomic structure
  • Controlled particle morphology
  • Low thermal expansion
  • Excellent dimensional stability

Mechanical Properties

  • High fracture toughness
  • Outstanding wear resistance
  • High compressive strength
  • Good fatigue resistance
  • Excellent machinability
  • Superior damage tolerance
  • Resistance to thermal cracking
  • High structural stability

Chemical Properties

  • Excellent oxidation resistance
  • High corrosion resistance
  • Stable under harsh environments
  • Strong chemical durability
  • High-temperature chemical stability
  • Resistance to aggressive industrial environments

Applications of Titanium Aluminum Carbide (Ti₃AlC₂) MAX Phase Powder

Due to its remarkable combination of electrical, thermal, mechanical, and chemical properties, Titanium Aluminum Carbide is extensively used in advanced scientific research and industrial manufacturing.

MXene Production

One of the most important applications of Ti₃AlC₂ MAX Phase Powder is the production of MXenes, an emerging class of two-dimensional nanomaterials. Through selective chemical etching, Ti₃AlC₂ serves as the precursor for titanium carbide MXenes used in energy storage, electromagnetic interference (EMI) shielding, sensors, catalysis, water purification, and flexible electronics.

Aerospace Industry

The aerospace sector benefits from Ti₃AlC₂ due to its high-temperature stability, oxidation resistance, lightweight characteristics, and excellent mechanical reliability. It is investigated for use in thermal protection systems, aircraft engine components, lightweight structural materials, and advanced aerospace composites.

Energy Storage Systems

Researchers are increasingly exploring Ti₃AlC₂-derived materials for advanced batteries and supercapacitors. Their high electrical conductivity, layered structure, and electrochemical performance contribute to the development of next-generation energy storage devices with improved charge-discharge characteristics.

Electronics and Electrical Engineering

Ti₃AlC₂ is used in conductive ceramics, thermal interface materials, electrical contacts, and electronic packaging where efficient heat dissipation and electrical conductivity are required. Its stability under demanding operating conditions makes it a valuable material for advanced electronic technologies.

Advanced Ceramic Research

Universities, national laboratories, and research institutes use Titanium Aluminum Carbide  as a model MAX phase material for investigating high-temperature ceramics, layered compounds, novel composite materials, and advanced manufacturing techniques.

Why Choose NanowizTech for Titanium Aluminum Carbide (Ti₃AlC₂) MAX Phase Powder?

NanowizTech a trusted manufacturer and global supplier of advanced nanomaterials, MAX phase powders, ceramic materials, and specialty chemicals. Our commitment to quality, innovation, and customer satisfaction has enabled us to serve research institutions, universities, government laboratories, and industrial manufacturers across the globe.

Whether you require laboratory-scale quantities for research or bulk orders for commercial production, NanowizTech delivers consistent quality, technical expertise, and dependable service.

Frequently Asked Questions (FAQ)

1. What is Titanium Aluminum Carbide (Ti₃AlC₂)?

Titanium Aluminum Carbide (Ti₃AlC₂) is a MAX phase ceramic material that combines the desirable properties of metals and ceramics, including high electrical conductivity, thermal stability, oxidation resistance, and machinability.

2. What is the chemical formula of Titanium Aluminum Carbide?

The chemical formula is Ti₃AlC₂.

3. What is the CAS Number of Ti₃AlC₂?

The CAS Number is 196506-01-1.

4. What purity does NanowizTech offer?

NanowizTech supplies Titanium Aluminum Carbide MAX Phase Powder with purity levels of up to 99.9%, depending on customer requirements.

5. What particle sizes are available?

Customized particle sizes are available for research and industrial applications.

6. What are the primary applications of Ti₃AlC₂?

Major applications include:

  • MXene synthesis
  • Advanced ceramics
  • Aerospace engineering
  • Energy storage
  • Electronics
  • Protective coatings
  • Additive manufacturing
  • High-temperature structural components
  • Electromagnetic interference shielding
  • Materials research
7. Is Ti₃AlC₂ electrically conductive?

Yes. Titanium Aluminum Carbide exhibits excellent electrical conductivity compared with conventional ceramic materials.

8. Can Ti₃AlC₂ withstand high temperatures?

Yes. It offers exceptional thermal stability and oxidation resistance, making it suitable for high-temperature environments.

9. Is bulk ordering available?

Yes. NanowizTech supplies both laboratory-scale and industrial-scale quantities.

10. Do you provide worldwide shipping?

Yes. We offer secure global shipping to customers across numerous countries and regions.

11. Can product specifications be customized?

 

Yes. Customized purity levels, particle sizes, and packaging options are available based on project requirements.

 

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