Elastic properties of the Ni-containing metallic glasses.

ORAL

Abstract

Several different acoustic techniques can be used to determine the elastic constants of a material. We use resonant ultrasound spectroscopy (RUS) and acoustic pulse-echo (APE) to investigate the elastic properties of Ni71.5Cr5.6Nb3.4P16.5B3, a bulk metallic glass alloy (Ni-BMG). The sample was made by a counter-gravity suction casting technique. Modeling of the measured spectrum of acoustic resonances for the sample in its cylindrical geometry was done with finite element analysis (FEA). FEA gives a longitudinal modulus (C11) of 300 GPa, and a Youngs modulus (C44) of 50 GPa (+/-5%). We compare these values with literature values for other Ni-bearing bulk metallic glass alloys.

*This work was partially supported by NSF DMR award number 1709282. National High Magnetic Field Laboratory is supported by NSF/DMR-1644779 and State of Florida.

Presenters

  • Oleksiy Svitelski

    • Gordon College, Wenham MA

Authors

  • Oleksiy Svitelski

    • Gordon College, Wenham MA

  • Danielle Duggins

    • Gordon College, Wenham MA

  • David S Lee

    • Gordon College, Wenham MA

  • Alexey Suslov

    • National High Magnetic Field Laboratory
    • Natl High Magnetic Field Lab
    • National High Magnetic Field Laboratory, Tallahassee FL
    • Florida State University