Publication | Open Access
Plasticity mechanisms in ultrafine grained freestanding aluminum thin films revealed by <i>in-situ</i> transmission electron microscopy nanomechanical testing
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Citations
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References
2014
Year
EngineeringSevere Plastic DeformationMechanical EngineeringThin Film Process TechnologyMicrostructure-strength RelationshipNanomechanicsThin Film ProcessingMaterials ScienceGrain RotationStrain LocalizationStarvation Plasticity MechanismPlasticityAluminum Thin FilmsMicrostructureDislocation InteractionMechanical PropertiesGrain GrowthApplied PhysicsPlasticity MechanismsThin FilmsMechanics Of MaterialsHigh Strain Rate
In-situ bright field transmission electron microscopy (TEM) nanomechanical tensile testing and in-situ automated crystallographic orientation mapping in TEM were combined to unravel the elementary mechanisms controlling the plasticity of ultrafine grained Aluminum freestanding thin films. The characterizations demonstrate that deformation proceeds with a transition from grain rotation to intragranular dislocation glide and starvation plasticity mechanism at about 1% deformation. The grain rotation is not affected by the character of the grain boundaries. No grain growth or twinning is detected.
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