Publications

Dislocation plasticity in FeCoCrMnNi high-entropy alloy: quantitative insights from in situ transmission electron microscopy deformation

Lee, S. and Duarte, M.J. and Feuerbacher, M. and Soler, R. and Kirchlechner, C. and Liebscher, C.H. and Oh, S.H. and Dehm, G.

MATERIALS RESEARCH LETTERS
Volume: 8 Pages: 216-224
DOI: 10.1080/21663831.2020.1741469
Published: 2020

Abstract
The mechanical properties of high-entropy alloys (HEAs) are still not deeply understood. Detailed knowledge of the strengthening mechanism, especially, the atomistic origin of solid solution hardening and its interplay with dislocation plasticity is needed. Here, we report on the dislocation glide behavior of a FeCoCrNiMn face-centered cubic (FCC) single crystal studied by in situ deformation in a transmission electron microscope (TEM). The threshold shear stress for dislocation glide in a thin foil is measured from dislocation curvature as exceeding 400 MPa. Interestingly, dislocations are prevented from straightening upon unloading due to high frictional stresses. IMPACT STATEMENT: The fiction stress for dislocation glide in a FeCoCrMnNi HEA is assessed by direct measurement of dislocation line curvature during in situ TEM deformation, which is higher compared to other FCC metals, explaining the outstanding yield and flow stress of the HEA. © 2020, © 2020 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group.

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