Fe-Si alloys ranging from 3 to 8 wt% Si were rapidly solidified using melt spinning. Wheel speeds of 30 m/s and 40 m/s were employed to vary cooling rates. Mössbauer spectroscopic studies indicated the Si content significantly influenced the number of Fe sites, relative abundance of various Fe species, and internal magnetic fields/structural environments. Wheel speed altered Fe speciation only in the 3 wt% sample. Scanning electron microscopy confirmed that increasing the wheel speed refined both the ribbon thickness and grain size. Electron backscatter diffraction results suggest tailoring melt spinning process parameters and alloy chemistry may offer the ability to manipulate {001} texture development. Electrical resistivity measurements were observed to increase in response to elevated Si content. Increased hardness was correlated to elevated Si content and wheel speed.
Revised: February 26, 2020 |
Published: February 13, 2018
Citation
Overman N.R., X. Jiang, R.K. Kukkadapu, T. Clark, T.J. Roosendaal, G.W. Coffey, and J.E. Shield, et al. 2018.Physical and electrical properties of melt-spun Fe-Si (3–8 wt%) soft magnetic ribbons.Materials Characterization 136.PNNL-SA-129219.doi:10.1016/j.matchar.2017.12.019