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Tungsten borides are compounds of tungsten and boron. Their most remarkable property is high hardness. The Vickers hardness of WB or WB₂ crystals is ~20 GPa^[1]^[2] and that of WB₄ is ~30 GPa for loads exceeding 3 N.^[3]

Synthesis

Single crystals of WB_2−x, x = 0.07–0.17 (about 1 cm diameter, 6 cm length) were produced by the floating zone method,^[1] and WB₄ crystals can be grown by arc-melting a mixture of elemental tungsten and boron.^[3]

Structure

WB₂ has the same hexagonal structure as most diborides (AlB₂, MgB₂, etc.).^[4] WB has several forms, α (tetragonal), β (orthorhombic) and δ (tetragonal).^[2]

Properties

δ-WB and WB₂ crystals have metallic resistivities of 0.1 and 0.3 mΩ·cm, respectively. The oxidation of W₂B, WB and WB₂ is significant at temperatures above 600 °C. The final oxidation products contain WO₃ and probably amorphous B₂O₃ or H₃BO₃. The melting temperatures of W₂B, WB and WB₂ are 2670, 2655 and 2365 °C, respectively.^[2]

Properties
Material	Vickers hardness (GPa)	Melting point (°C)
W₂B		2670
WB	~20	2655
WB₂	~20	2365
WB₄	~30

References

^ ^a ^b Otani, S.; Ishizawa, Y. (1995). "Preparation of WB_2−x single crystals by the floating zone method". Journal of Crystal Growth. 154 (1–2): 81–84. Bibcode:1995JCrGr.154...81O. doi:10.1016/0022-0248(95)00155-7.
^ ^a ^b ^c Okada, S.; Kudou, K.; Lundström, T. (1995). "Preparations and Some Properties of W₂B, δ-WB and WB₂ Crystals from High-Temperature Metal Solutions". Japanese Journal of Applied Physics. 34 (1): 226–231. Bibcode:1995JaJAP..34..226O. doi:10.1143/JJAP.34.226. S2CID 95651766.
^ ^a ^b Mohammadi, R.; Lech, A. T.; Xie, M.; Weaver, B. E.; Yeung, M. T.; Tolbert, S. H.; Kaner, R. B. (2011). "Tungsten tetraboride, an inexpensive superhard material". Proceedings of the National Academy of Sciences. 108 (27): 10958–62. Bibcode:2011PNAS..10810958M. doi:10.1073/pnas.1102636108. PMC 3131357. PMID 21690363.
^ Woods, H. P.; Wawner, F. E.; Fox, B. G. (1966). "Tungsten Diboride: Preparation and Structure". Science. 151 (3706): 75. Bibcode:1966Sci...151...75W. doi:10.1126/science.151.3706.75. PMID 17842093. S2CID 7686903.

[otani-1] Otani, S.; Ishizawa, Y. (1995). "Preparation of WB_2−x single crystals by the floating zone method". Journal of Crystal Growth. 154 (1–2): 81–84. Bibcode:1995JCrGr.154...81O. doi:10.1016/0022-0248(95)00155-7.

[okada-2] Okada, S.; Kudou, K.; Lundström, T. (1995). "Preparations and Some Properties of W₂B, δ-WB and WB₂ Crystals from High-Temperature Metal Solutions". Japanese Journal of Applied Physics. 34 (1): 226–231. Bibcode:1995JaJAP..34..226O. doi:10.1143/JJAP.34.226. S2CID 95651766.

[wb4-3] Mohammadi, R.; Lech, A. T.; Xie, M.; Weaver, B. E.; Yeung, M. T.; Tolbert, S. H.; Kaner, R. B. (2011). "Tungsten tetraboride, an inexpensive superhard material". Proceedings of the National Academy of Sciences. 108 (27): 10958–62. Bibcode:2011PNAS..10810958M. doi:10.1073/pnas.1102636108. PMC 3131357. PMID 21690363.

[4] Woods, H. P.; Wawner, F. E.; Fox, B. G. (1966). "Tungsten Diboride: Preparation and Structure". Science. 151 (3706): 75. Bibcode:1966Sci...151...75W. doi:10.1126/science.151.3706.75. PMID 17842093. S2CID 7686903.

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