Information AboutFerrocerium |
| CATEGORIES ABOUT FERROCERIUM | |
| ferroalloys | |
| firelighting | |
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While ferrocerium-and-steel function in a similar way to Flint -and- Steel in fire starting, ferrocerium actually takes on the role that steel played in traditional methods. When small shavings of it are removed quickly enough, the heat generated by friction is enough to ignite those shavings. The sparks generated are in fact tiny pieces of burning metal. Lighter "flint" is composed mostly of Rare Earth metals, usually Cerium or Mischmetal , whose low ignition temperatures (150 to 180 degrees Celsius ) are the chemical origin of its easy sparking. Since smaller scrapings become better sparks, the mechanical properties of rare earth metals must be adjusted to give a usable material; to that end, at least two strategies have been developed to make such alloys more Brittle : #Oxide - most contemporary flints are hardened with 20% Iron Oxide and 2% Magnesium Oxide . #Intermetallic - in the Baron von Welsbach's original Alloy , 30% Iron (ferrum) was added to purified Cerium , hence the name "ferro-cerium". Iron reacts with rare earth metals to form hard Intermetallic compounds similar to those in Neodymium Magnet s; such magnets are also known to generate sparks quite easily when broken. REFERENCE |
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