Guiding shear bands in bulk metallic glasses using stress fields: A perspective from the activation of flow units
Konrad Kosiba, S. Scudino, Jozef Bednarčík, Jianjun Bian, Gang Liu, U. Kühn, S. Pauly
Abstract
Controlling shear band propagation is the key to obtain ductile metallic glasses. Here, we use a residual stress field to vary the direction of shear band propagation. We ascribe this behavior to the effect of the stress field on the activation of shear transformation zones (STZs) along their characteristic direction and we quantify this contribution to the energy of the process. Because of the progressively adverse orientation of the stress field, the energy stored as shear in the STZ decreases to a level where shear band propagation at alternative angles becomes energetically more favorable.
Topics & Concepts
Shear matrixShear (geology)Materials scienceShear bandShear stressMetalCritical resolved shear stressResidual stressStress fieldComposite materialMechanicsCondensed matter physicsAmorphous metalShear rateFinite element methodPhysicsMetallurgyThermodynamicsRheologyAlloyMetallic Glasses and Amorphous AlloysTheoretical and Computational PhysicsGlass properties and applications