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3D microscopy at the nanoscale reveals unexpected lattice rotations in deformed nickel

Qiongyao He, S. Schmidt, Wanquan Zhu, Guilin Wu, Tianlin Huang, Ling Zhang, Dorte Juul Jensen, Zongqiang Feng, A. Godfrey, Xiaoxu Huang

2023Science34 citationsDOIOpen Access PDF

Abstract

In polycrystalline metals, plastic deformation is accompanied by lattice rotations resulting from dislocation glide. Following these rotations in three dimensions requires nondestructive methods that so far have been limited to grain sizes at the micrometer scale. We tracked the rotations of individual grains in nanograined nickel by using three-dimensional orientation mapping in a transmission electron microscope before and after in situ nanomechanical testing. Many of the larger-size grains underwent unexpected lattice rotations, which we attributed to a reversal of rotation during unloading. This inherent reversible rotation originated from a back stress-driven dislocation slip process that was more active for larger grains. These results provide insights into the fundamental deformation mechanisms of nanograined metals and will help to guide strategies for material design and engineering applications.

Topics & Concepts

Materials scienceCrystalliteDislocationSlip (aerodynamics)Grain sizeNanoscopic scaleTransmission electron microscopyLattice (music)NickelRotation (mathematics)NanometreDeformation mechanismCrystallographyCondensed matter physicsComposite materialMetallurgyNanotechnologyMicrostructureGeometryChemistryPhysicsMathematicsThermodynamicsAcousticsMicrostructure and mechanical propertiesMetal and Thin Film MechanicsForce Microscopy Techniques and Applications
3D microscopy at the nanoscale reveals unexpected lattice rotations in deformed nickel | Litcius