Vitallium is an alloy of 65% cobalt, 30% chromium, 5% molybdenum, and other substances. The alloy is used in dentistry and artificial joints, because of its resistance to corrosion. It is also used for components of turbochargers because of its thermal resistance.[citation needed] Vitallium was developed by Albert W. Merrick for the Austenal Laboratories in 1932.
In 2016 Norman Sharp, a 91-year-old British man, was recognised as having the world's oldest hip replacement implants. The two Vitallium implants were implanted in November 1948 at the Royal National Orthopaedic Hospital, under the newly formed NHS. The 67-year-old implants had such an unusually long life, partly because they had not required the typical replacement of such implants, but also because of Sharp's young age of 23 when they were implanted, owing to a childhood case of septic arthritis.[1]
For high-temperature use in engines, particularly turbochargers, the first alloy used was Haynes Stellite No. 21, similar to Vitallium. This was suggested by the British engineer, and denture wearer, S.D. Heron during World War II. Although the characteristics of the material obviously suggested itself for making turbocharger blades, it was thought impossible to cast it to the precision needed. Heron demonstrated that it could be, by showing his Vitallium dentures.[2]
References
edit- ^ "The inspiring story of the man whose pioneering hip replacement has lasted a record-breaking 70 years". Archived from the original on 2022-12-05. Retrieved 2023-09-08.
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: CS1 maint: bot: original URL status unknown (link) - ^ Setright, L.J.K. (1971). "Supercharging". Power To Fly. George Allen & Unwin. p. 195. ISBN 0-04-338041-7.
- Wojnar, L (2001). "Porosity structure and mechanical properties of vitalium-type alloy for implants". Materials Characterization. 46 (2–3): 221–225. doi:10.1016/S1044-5803(01)00127-9.
- Kaminski, M; Baszkiewicz, J; Kozubowski, J; Bednarska, A; Barcz, A; Gawlik, G; Jagielski, J (1997). "Effect of silicon ion implantation on the properties of a cast Co–Cr–Mo alloy". Journal of Materials Science. 32 (14): 3727–3732. Bibcode:1997JMatS..32.3727K. doi:10.1023/A:1018607219482. S2CID 137668544.
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