David Mascareñas, a research and development engineer at Los Alamos National Laboratory, used Barkhausen noise measurements to find unique-looking “fingerprints” in steel. Photo Courtesy LANL
Researchers using magnetic signals have found unique “fingerprints” on steel, which could help to verify weapons treaties and reduce the use of counterfeit bolts in the construction industry.
Magnetic signals provide a wide range of possible national security applications,” said David Mascareñas, a research and development engineer at Los Alamos National Laboratory and lead author of the study published recently in the journal Smart Materials and Structures. “It’s a promising phenomenon that we hope to leverage to uniquely identify different pieces of artillery.”
In the research, funded by the U.S Department of State, researchers applied Barkhausen noise, a magnetic phenomenon, to two types of steel — conventional steel and an abrasive-resistant type of steel used in mining equipment. A sensor measured electromagnetic signals by repeatedly scanning the different kinds of steel over a period of time. Researchers compared the signals from those two sets of scanned images and found signatures that were instrinsic to each type of steel.
The variations that occur from the production of various kinds of steel are reflected as distinct fingerprints. “They seem to be repeatable,” said Mascareñas.
That intrinsic signature could help to discover counterfeit or low-grade steel parts in construction by looking for differences in the electromagnetic signatures. “It could also help solve that big problem in that industry,” said Mascareñas.
Future research could involve studying other types of steel and developing a handheld sensor for treaty verification.