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Research leads the chemical fingerprints of Viking weapons

Credit: AIXabay / CC0 public domain

New studies examining the chemical composition of iron artifacts in the Viking era reveal new insights into where they came from, which may reveal previously unknown information about historical events. The purpose is to.


Scientists at the University of Nottingham are leading research into 90 iron Viking relics.They are weapons Used in battles at Fulford and Wirral’s Bevington Heath in North Yorkshire. Other sources are from the Viking Camp in Torksey, Lincolnshire, and the former Viking Port of Meols.

Fulford was the site of the 1066 AD battle between the Nordic invaders and the Anglo-Saxons, shortly before the famous battle of Stamford Bridge. Archaeological material consists of iron weapons found at several short-lived iron recycling sites, abandoned by Norse victors in Fulford when defeated at Stamford Bridge five days later. Iron material from Bevington Heath was recovered from a potential location in the AD937 battle in Brunamble between North Scottish and Anglo-Saxon troops. This material is typified by the late Saxon / Viking and shows similarities to Fulford’s relics. Downstream of the Trent Valley, Torksey, Lynx, was a winter camp for the Viking Army in 872-873 AD, where ironmaking work is documented.

Research leads the chemical fingerprints of Viking weapons

Credit: University of Nottingham

Nottingham researchers include Dr. Jean Milot, Professor Dawn Hadley and Professor Julian Richards, Fulford Battlefield Society (Chas Jones), and Professor Jane Evans of Keyworth, based in Nottinghamshire. ) To identify the chemical isotope signature of iron Lead, strontium And iron Isotope analysis.. Lead isotope analysis has proven to be effective in proving ancient metal artifacts of silver and copper, and the team found that the combination of this analysis is highly corrosive to the item.

“This study tests the hypothesis that iron-based isotope analysis can be used to more specifically identify where the relic came from. If successful, this method will do more. It may be used in historical relics, which will help us learn more about historical events and people, “said Stephen Harding, a scientific research expert and research leader in Viking’s relics. The professor says.

“This reveals the unique isotopic composition of these ancient relics and how to let us know where they were made, using the latest science and technology,” said Mark Pierce, a professor of prehistoric Mediterranean. An exciting collaboration to make. This project will revolutionize the understanding of archaeology. iron It gives us a way to pinpoint the objects and ultimately their origin. ”


One of the largest Iron Age weapons depots in West Germany has been unearthed


Quote: The investigation was conducted on the Viking Weapons acquired from https://phys.org/news/2022-02-spearheads-chemical-fingerprint-viking-weapons.html on February 17, 2022 (February 17, 2022). Leads the chemical fingerprint of

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Research leads the chemical fingerprints of Viking weapons

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