TITLE:
2 GeV Electron Beam Irradiation Effects in Advanced Metallic Glasses
AUTHORS:
Monica Sorescu, Fatiha Benmokhtar, Douglas Higinbotham, Marcy Stutzman
KEYWORDS:
Metallic Glasses, Hyperfine Interactions, Magnetostriction, Radiation Effects, Mӧssbauer Spectroscopy
JOURNAL NAME:
Journal of Minerals and Materials Characterization and Engineering,
Vol.10 No.2,
February
11,
2022
ABSTRACT: Six amorphous alloys (Alloy 1: Fe56Co24Nb4B13Si2Cu1, Alloy 2: Fe68.5Co5Nb3Cu1Si15.5B7, Alloy 3: Fe75.3Ni0.8Cr0.9Si8.7B14.3, Alloy 4: Fe56Co24Cr10Nb4B3Si1Cu2, Alloy 5: Fe72.9Nb3Cu1Si16.2B6.9, Alloy 6: Fe83.3Si8.6Nb5.5B1.4Cu1.2) were selected in terms of their composition and magnetostriction constants and uniformly irradiated in a high radiation environment in Hall A of the Thomas Jefferson National Accelerator Facility. The 2 GeV electron beam irradiation-induced effects were characterized by Mӧssbauer spectroscopy. The microstructural changes were related to the evolution of the hyperfine magnetic field distributions and isomer shifts. In particular, the occurrence of stress centers in the amorphous materials was evidenced.