Nordic Gold

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50 euro cent coin made out of Nordic Gold. Euro 50 cent.jpg
50 euro cent coin made out of Nordic Gold.

Nordic gold (Swedish: nordiskt guld [1] ) is the gold-coloured copper alloy from which many coins are made. Despite the name, it contains no gold, and is a type of aluminium bronze.

Contents

History

Nordic gold was developed by Mariann Sundberg while she worked for the Finnish metal company Outokumpu. [2]

Properties

Nodic gold's composition is 89% copper, 5% aluminium, 5% zinc, and 1% tin. [3] [4] The colour and density are unlike pure gold, and compared to commercial copper metal, the alloy has significantly smaller grains.[ clarification needed ] A thin oxide material is formed after abrasive polishing. [5] It is hypoallergenic, antimycotic [6] and somewhat antimicrobial (especially after abrasion) [7] . It is also resistant to tarnishing. [8] The European Central Bank says that the alloy is "difficult to melt and used exclusively for coins." [9]

Uses

Nordic gold was originally developed for the 5 and 10 Swedish kronor coins in 1991. [10] Many other currencies have also made use of the alloy, most notably in 50, 20, and 10 euro cents. [3] [11] Additionally, the 2 Polish złoty commemorative coins.

It has been studied for antimicrobial applications in hospital, to help prevent MRSA infections. [8]

See also

References

  1. Predecimal.com. "The selection of the alloy for the New Euro Coins" . Retrieved 20 March 2020.
  2. Kuparinen, Tuulikki (19 December 2001). "Kultaiset eurokolikot syntyvät Outokummun kupariseoksesta". Ilta-Sanomat (in Finnish). Retrieved 7 February 2021. Yhtiön tutkimus- ja kehitysasiantuntija Mariann Sundberg on kehittänyt Nordic Gold -kuparimetalliseoksen
  3. 1 2 "Brass Material and Specifications Review". Engineer's Edge LLC. Retrieved 14 July 2022.
  4. "What is Nordic Gold?". European Copper Institute. Retrieved 14 July 2022.[ permanent dead link ]
  5. Chang, Tingru; Wallinder, Inger Odnevall; Jin, Ying; Leygraf, Christofer (2018). "The golden alloy Cu-5Zn-5Al-1Sn: A multi-analytical surface characterization". Corrosion Science. 131: 94–103. Bibcode:2018Corro.131...94C. doi: 10.1016/j.corsci.2017.11.014 .
  6. Quaranta, Davide; et al. (January 2011). "Mechanisms of Contact-Mediated Killing of Yeast Cells on Dry Metallic Copper Surfaces". Applied and Environmental Microbiology. 77 (2). American Society for Microbiology: 416–426. Bibcode:2011ApEnM..77..416Q. doi:10.1128/AEM.01704-10. PMC   3020553 . PMID   21097600.
  7. Horton, D.; et al. (2015). "Tarnishing and Cu Ion release In Selected Copper-Base Alloys: Implications Towards Anti-Microbial Functionality" . Electrochimica Acta. 169: 351–366. doi:10.1016/j.electacta.2015.04.001 . Retrieved 20 March 2020.
  8. 1 2 Foster, Leanna (13 August 2014). Tarnishing of a Cu-Al-Zn-Sn Alloy Compared to Commercially Pure Copper: Implications Toward Antimicrobial Function (MS thesis). University of Virginia. doi: 10.18130/v3q08v .
  9. "Security features". European Central Bank. 2022.
  10. Rohrig, Brian (2020). The Chemistry of Money. Royal Society of Chemistry. p. 146. ISBN   9781782629832.
  11. "Common sides of euro coins". European Commission website. Retrieved 14 July 2022.
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