Download This PaperManganese Addition Induced “Maze-Like” Nanostructure Enables Lightweight Medium Entropy Alloys with Large Uniform Plastic Deformation
17 Pages Posted: 1 Feb 2024
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Manganese Addition Induced “Maze-Like” Nanostructure Enables Lightweight Medium Entropy Alloys with Large Uniform Plastic Deformation
Manganese Addition Induced “Maze-Like” Nanostructure Enables Lightweight Medium Entropy Alloys with Large Uniform Plastic Deformation
Abstract
Body-centered cubic (BCC) structured lightweight high/medium entropy alloys (HEAs/MEAs) are a promising class of structure materials, but poor strain hardening ability limits their actual applications. This work proposes a method of improving the strain-hardening ability of TiVZr lightweight MEA via a small addition of Mn element. The TiVZr0.1Mn0.1 exhibits a “maze-like” nanostructure that promote dislocation multiplication during deformation, improving strain hardening ability and uniform elongation (>10%). Large difference in lattice parameter between Mn and TiVZr solid solution matrix contributes to significant solid solution strengthening and hence high specific tensile yield strength (~180 MPa·cm3/g).
Keywords: Lightweight medium entropy alloys, Mn addition, Spinodal decomposition, strain hardening
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