Article abstract
Nature Materials 2, 33 - 37 (2002)
Published online: 8 December 2002 | doi:10.1038/nmat792
Subject Categories: Metals and alloys | Composites | Mechanical properties | Nanoscale materials
Novel Ti-base nanostructure–dendrite composite with enhanced plasticity
Guo He1, Jürgen Eckert1, Wolfgang Löser1 & Ludwig Schultz1
Abstract
Single-phase nanocrystalline materials undergo inhomogeneous plastic deformation under loading at room temperature, which results in a very limited plastic strain (smaller than 0–3%). The materials therefore display low ductility, leading to catastrophic failure, which severely restricts their application. Here, we present a new in situ-formed nanostructured matrix/ductile dendritic phase composite microstructure for Ti-base alloys, which exhibits up to 14.5% compressive plastic strain at room temperature. The new composite microstructure was synthesized on the basis of the appropriate choice of composition, and by using well-controlled solidification conditions. Deformation occurs partially through dislocation movement in dendrites, and partially through a shear-banding mechanism in the nanostructured matrix. The dendrites act as obstacles restricting the excessive deformation by isolating the highly localized shear bands in small, discrete inter-dendritic regions, and contribute to the plasticity. We suggest that microscale ductile crystalline phases might therefore be used to toughen nanostructured materials.
- IFW Dresden, Institut für Metallische Werkstoffe, Postfach 270016, D-01171 Dresden, Germany
Correspondence to: Guo He1 e-mail: g.he@ifw-dresden.de
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