Titanium is one of the most versatile materials used in engineering. An innovative way of producing it from titanium dioxide will make the metal cheaper — if the process can be scaled up.
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References
Chen, G. Z., Fray, D. J. & Farthing, T. W. Nature 407, 361– 364 (2000).
Hartman, A. D., Gerdemann, S. J. & Hansen, J. S. J. Mater. 50, 16– 20 (1998).
Okura, Y. in Titanium '95: Science and Technology (eds Blenkinsop, P. A., Evans, W. J. & Flower, H. M.) Vol. 2, 1427– 1437 (Inst. Materials, London, 1996).
Ginatta, M. V., Orsello, G., Perotti, P. & Berruti, R. in Proc. Sixth World Conf. on Titanium (eds Lacombe P., Tricot, R. & Beranger, G.) Vol. 2, 753–758 (Éditions de Physique, Zone Industrielle de Courtaboeuf, Les Ulis Cedex, 1998).
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Flower, H. A moving oxygen story. Nature 407, 305–306 (2000). https://doi.org/10.1038/35030266
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DOI: https://doi.org/10.1038/35030266
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