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arxiv: 2507.05293 · v1 · pith:VMQ5KRUF · submitted 2025-07-05 · cond-mat.mtrl-sci

Dynamic Plastic Deformation Delocalization in FCC Solid Solution Metals

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classification cond-mat.mtrl-sci
keywords deformationmechanismplasticmechanicalmetallicdelocalizationdynamicenhancing
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Metallic materials undergo irreversible deformation under mechanical loading, leading to intense local plastic localization that reduces their mechanical performance. We identify a new mechanism of plastic deformation localization that dynamically promotes the homogenization of plasticity in face-centered cubic solid solution-strengthened metallic alloys. We observe that this mechanism occurs within a narrow range of stacking fault energies and involves competing deformation between nanoscale twinning and slip. This phenomenon is attributed to a new mechanism referred to as dynamic plastic deformation delocalization, which opens a new design space for enhancing the mechanical performance of metallic materials. We demonstrate that the activation of this mechanism has a significant impact on fatigue properties, greatly enhancing fatigue strength when it occurs.

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