Ductility by shear band delocalization in the nano-layer of gradient structure Article Swipe

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Materials science Shear band Delocalized electron Shear (geology) Work hardening Strain hardening exponent Composite material Hardening (computing) Adiabatic shear band Shear stress Ductility (Earth science) Dislocation Condensed matter physics Layer (electronics) Microstructure Physics Creep Quantum mechanics

Fuping Yuan , Dingshun Yan , Jiangda Sun , Lingling Zhou , Yuntian Zhu , Xiaolei Wu ·

YOU? · · 2018 · Open Access · · DOI: https://doi.org/10.1080/21663831.2018.1546238 · OA: W2901066545

Nanostructured (NS) metals typically fail soon after yielding, starting with the formation of narrow shear bands. Here we report the observation of shear band delocalization in gradient metals. Shear bands were nucleated and delocalized in the NS layers by propagating along the gage length soon after yielding, converting the shear band into a localized strain zone (LSZ). Synergistic work hardening was developed in the LSZ by regaining dislocation hardening capability, and by back-stress hardening from the strain gradients in the axial and depth directions, which helped with enhancing global ductility.\n[GRAPHICS]