Thank you!

Your quote has been successfully submitted!

For products requiring additional information, our team will contact you within 1 business day

Failed

There was an error submitting your quote. Please try again.

MSE PRO Niobium Aluminum Carbide (Nb4AlC3) MAX Phase Micron-Powder– MSE Supplies LLC

Free Shipping on MSE PRO Online Orders of $500 or More! U.S. Orders Only * Offer Excludes Hazmat Shipments *

Menu

This product has been added to the cart.

Niobium Aluminum Carbide (Nb<sub>4</sub>AlC<sub>3</sub>) MAX Phase Micron-Powder - MSE Supplies LLC

MSE PRO Niobium Aluminum Carbide (Nb4AlC3) MAX Phase Micron-Powder

SKU: PO6728

  • £11000
  • Save £1300


MSE PRO™ Niobium Aluminum Carbide (Nb4AlC3) MAX Phase Micron-Powder

  • Chemical Name: Niobium Aluminum Carbide (Nb4AlC3)
  • CAS Number: 12069-94-2
  • Product Number: 1g (PO6728); 5g (PO6729)
  • Appearance: Black Powder
  • Particle Size: 1-6μm
  • Purity: 90 wt.%

Applications

Niobium Aluminum Carbide (Nb4AlC3belongs to the family of Mn+1AXn (MAX) phases with more than 80 members. These are layered, machinable, nanolaminated ternary carbides, nitrides and borides, where M is an early transition metal, A is an A-group element, mainly from groups 13–16 and X is C or N or B. These compounds possess hexagonal crystal structure with space group P63/mmc (space group number: 194), where M atoms are in a near closed packed arrangement and are intercalated with A-group atomic layers, with the X-atoms residing in the octahedral sites between the M layers. These atomic arrangements give the MAX phases an effective laminated layered structure that leads to the naming of the MAX phase as nanolaminates. MAX phases possess a unique combination of properties, both metallic and ceramic in nature due to the layered structure. Metallic properties can include good thermal and electrical conductivities, good thermal shock resistance, excellent damage tolerance, and good machinability. Ceramic properties include low density, elastic rigidity, oxidation and creep resistance, and the ability to maintain the strength up to very high temperatures.

Beside the good damage tolerance, excellent machinability and high elastic stiffness shared by other MAX phases. Nb4AlC3 is featured by high-temperature mechanical stability. Its Young's modulus loses only 21% up to 1580 °C, and its flexural strength remains up to 1400 °C without any reduction. As a comparison, the mechanical properties of other MAX phases, such as the notable Ti2AlC, Ti3AlC2 and Ti3SiC2, are not so excellent at high temperatures. They show a rapid degradation of mechanical properties above 1000 °C. Therefore, among the currently discovered MAX phases, Nb4AlC3 is one of the most promising candidates for high-temperature structural materials.

Notes: More detailed product information including SDS, certificate of analysis (COA), lead time and volume pricing are available upon request. Please contact MSE Supplies if you need bulk pricing. 

MSE Supplies also offers Nb4AlC3 dispersions. Please contact us for quote.

References

1. Nb4AlC3: A new compound belonging to the MAX phases. Scripta Materialia 57, no. 10 (2007): 893-896.

2. Physical and mechanical properties of highly textured polycrystalline Nb4AlC3 ceramic. Science and Technology of Advanced Materials (2011).

3. Enhanced mechanical properties of W-doped Nb4AlC3 ceramics. Ceramics International 44, no. 16 (2018): 19135-19142.

4. Synthesis of Ti3AlC2 ceramic by high-energy ball milling of elemental powders of Ti, Al and C. journal of materials processing technology 209, no. 2 (2009): 871-875.