Technology • phys.org • 7 hours ago

Magnetic fields slow carbon migration in iron by altering energy barriers, study shows

Professor Dallas Trinkle and colleagues have provided the first quantitative explanation for how magnetic fields slow carbon atom movement through iron, a phenomenon first observed in the 1970s but never fully understood. Published in Physical Review Letters, their computer simulations reveal that magnetic field alignment changes the energy barriers between atomic "cages," offering potential pathways to reduce the energy costs and CO2 emissions associated with steel processing.

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Magnetic fields slow carbon migration in iron by altering energy barriers, study shows

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