Science, Tech, Math › Science What Is Mischmetal? Share Flipboard Email Print Angel Herrero de Frutos/Getty Images Science Chemistry Chemistry In Everyday Life Basics Chemical Laws Molecules Periodic Table Projects & Experiments Scientific Method Biochemistry Physical Chemistry Medical Chemistry Famous Chemists Activities for Kids Abbreviations & Acronyms Biology Physics Geology Astronomy Weather & Climate By Ryan Wojes Northwestern University Ryan Wojes wrote about commodities and metals for The Balance and worked as a metallurgist for more than 13 years. our editorial process LinkedIn LinkedIn Ryan Wojes Updated April 25, 2018 Mischmetal is a rare earth alloy that is exactly as its German name translates: 'A mix of metals'. There is no exact formulation for mischmetal, but a common composition is approximately 50 percent cerium and 25 percent lanthanum with smaller amounts of neodymium, praseodymium and other trace rare earths making up the balance. With the creation of the first mischmetal from monazite ore, the rare earth metals industry was born, paving the way for isolation and purification of many rare earths. Physical Properties In general, mischmetal is soft and brittle. However, because rare earths readily oxidize and absorb hydrogen and nitrogen, it is extremely difficult to produce a sufficiently pure sample of mischmetal in order to test it for mechanical and electrical properties. According to Jiangxi Xinji Metals, a leading Chinese manufacturer of mischmetal, even rare earth metals offered to 99.99999% commercial purity may only contain 99.99% rare earth metal in the delivered condition, with up to 10,000 parts per million oxygen impurities in the alloy. These impurities create lattice defects and microstructural inclusions that negatively impact strength, toughness, ductility and conductivity properties. As a result, no significant and reliable physical property data on the various commercial mischmetals is published by industry or in the research literature. History Mischmetal was originally called Auer's metal, after Carl Auer von Welsbach who created the alloy out of remnant material from his experiments in creating a thorium-powered light-mantle in 1885. His thorium source was monazite sand, of which some 90-95% was composed of other rare earth metals. None of these at the time had commercial value. By 1903, von Welsbach had optimized the fusion electrolysis procedure to produce a void-free cerium alloy with approximately 30 percent iron. The iron addition added significant hardness to the cerium, which is a pyrophoric rare earth. He had created Auermetall, now known as ferrocerium, which is the basic material used for flints in fire starters and lighters. From this discovery, von Welsbach realized that he could separate the various rare earths from a given ore using electrolytic processes. By carefully using the different solubility properties of the various rare earths to his advantage, he could isolate them from their naturally occurring chloride forms. This was the beginning of the rare earth metals industry -- now the various pure elements could be evaluated and used for new commercial applications. Mischmetal in the Marketplace and Industry Mischmetal is not traded as a commodity on major exchanges but is consumed through multiple channels of industry. China is the largest producer of rare earths, including mischmetal alloy. Mischmetal is directly consumed in industrial applications: As an oxygen getter in vacuum tube manufacturing.In batteries relying on metal hydride technology.As a spark source to start fires and flames, as well as in movie special effects.By steel and non-ferrous metals manufacturers to improve castability and mechanical properties in certain alloys.