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Metallic Nanoglasses with Promoted β-Relaxation and Tensile Plasticity

Qun Yang, Chaoqun Pei, Hai‐Bin Yu, Tao Feng

2021Nano Letters45 citationsDOI

Abstract

The secondary (β) relaxation is an intrinsic feature of glassy systems and is crucial for the mechanical properties of metallic glasses. However, it remains puzzling what structural features control the β-relaxation fundamentally. Here, we use the recently developed nanoglasses exhibiting well-defined structural features at the nanometer scale to interrogate such structure–dynamics relations. We show that an electrodeposited Ni77.5P22.5 nanoglass exhibits promoted β-relaxation and enhanced microscale tensile plasticity over the most rapidly melt-quenched metallic glass with the same composition. Structurally, the β-relaxation is sensitive to the interfacial regions among grains in the nanoglasses. Our results reveal a clear correlation between the amorphous nanostructures and the β-relaxation. It seems that the nanostructuring represents a novel route to obtain high-energy glassy states, that is, the inverse problem of the ultrastable glass.

Topics & Concepts

Amorphous metalMicroscale chemistryMaterials scienceRelaxation (psychology)PlasticityAmorphous solidNanometreUltimate tensile strengthNanostructureChemical physicsNanoscopic scaleStress relaxationNanotechnologyComposite materialAlloyCondensed matter physicsCrystallographyChemistryCreepPhysicsPsychologyMathematics educationMathematicsSocial psychologyMaterial Dynamics and PropertiesMetallic Glasses and Amorphous AlloysTheoretical and Computational Physics
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