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Hafnium diboride

From Wikipedia, the free encyclopedia

Hafnium diboride
Identifiers
3D model (JSmol)
ChemSpider
ECHA InfoCard 100.031.351 Edit this at Wikidata
  • InChI=1S/B2.Hf/c1-2;/q+2;-2 checkY
    Key: MELCCCHYSRGEEL-UHFFFAOYSA-N checkY
  • InChI=1/B2.Hf/c1-2;/q+2;-2/rB2Hf/c1-2-3-1
    Key: MELCCCHYSRGEEL-KRVKJWMQAC
  • B\1=B\[Hf]/1
Properties
HfB2
Molar mass 200.11 g/mol
Density 11.2 g/cm3 [1]
Melting point ca. 3,250 °C (5,880 °F; 3,520 K)
Structure
Hexagonal, hP3
P6/mmm, No. 191
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
☒N verify (what is checkY☒N ?)

Hafnium diboride is a type of ceramic composed of hafnium and boron that belongs to the class of ultra-high temperature ceramics. It has a melting temperature of about 3250 °C. It is an unusual ceramic, having relatively high thermal and electrical conductivities, properties it shares with isostructural titanium diboride and zirconium diboride. It is a grey, metallic looking material. Hafnium diboride has a hexagonal crystal structure, a molar mass of 200.11 grams per mole, and a density of 11.2 g/cm3.

Hafnium diboride is often combined with carbon, boron, silicon, silicon carbide, and/or nickel to improve the consolidation of the hafnium diboride powder (sintering). It is commonly formed into a solid by a process called hot pressing, where the powders are pressed together using both heat and pressure.

The material has potential for use in hypervelocity reentry vehicles such as ICBM heat shields or aerodynamic leading-edges, due to its strength and thermal properties. Unlike polymer and composite material, HfB2 can be formed into aerodynamic shapes that will not ablate during reentry.

Hafnium diboride is also investigated as a possible new material for nuclear reactor control rods. It is also being investigated as a microchip diffusion barrier. If synthesized correctly, the barrier can be less than 7 nm in thickness.

Nanocrystals of HfB2 with rose-like morphology were obtained combining HfO2 and NaBH4 at 700-900°C under argon flow:[2]

HfO2 + 3NaBH4 → HfB2 + 2Na(g,l) + NaBO2 + 6H2(g)

References

  1. ^ Fahrenholtz, William (10 May 2007). "Refractory diborides of zirconium and hafnium". Journal of the American Ceramic Society. 90.5: 1347–1364. doi:10.1111/j.1551-2916.2007.01583.x.
  2. ^ Zoli, Luca; Galizia, Pietro; Silvestroni, Laura; Sciti, Diletta (23 January 2018). "Synthesis of group IV and V metal diboride nanocrystals via borothermal reduction with sodium borohydride". Journal of the American Ceramic Society. 101 (6): 2627–2637. doi:10.1111/jace.15401.
This page was last edited on 29 December 2023, at 12:47
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