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Direct Observation of Quadrupolar Strain Fields forming a Shear Band in Metallic Glasses

Sangjun Kang, Di Wang, Arnaud Caron, Christian Minnert, Karsten Durst, Christian Kübel, Xiaoke Mu

2023Advanced Materials42 citationsDOIOpen Access PDF

Abstract

For decades, scanning/transmission electron microscopy (S/TEM) techniques have been employed to analyze shear bands in metallic glasses and understand their formation in order to improve the mechanical properties of metallic glasses. However, due to a lack of direct information in reciprocal space, conventional S/TEM cannot characterize the local strain and atomic structure of amorphous materials, which are key to describe the deformation of glasses. For this work, 4-dimensional-STEM (4D-STEM) is applied to map and directly correlate the local strain and the atomic structure at the nanometer scale in deformed metallic glasses. Residual strain fields are observed with quadrupolar symmetry concentrated at dilated Eshelby inclusions. The strain fields percolate in a vortex-like manner building up the shear band. This provides a new understanding of the formation of shear bands in metallic glass.

Topics & Concepts

Materials scienceAmorphous metalShear bandShear matrixAmorphous solidScanning transmission electron microscopyShear (geology)Condensed matter physicsTransmission electron microscopyComposite materialAtomic unitsScanning electron microscopeChemical physicsNanotechnologyCrystallographyAlloyChemistryPhysicsQuantum mechanicsMetallic Glasses and Amorphous AlloysMagnetic properties of thin filmsTheoretical and Computational Physics
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