Modeling Hall–Petch Relationships of Alloyed Nanostructured Materials Regarding Bonding Nature at Grain Boundaries
Haibo Lv, Feng Jiang, Yongfu Zhu

TL;DR
This paper proposes a unified formula to explain how grain size affects the strength of nanostructured alloys and pure metals.
Contribution
A thermodynamic model unifying Hall–Petch relationships for both pure and alloyed nanostructured materials is introduced.
Findings
Yield strength increases then decreases for pure and low-melting alloys as grain size shrinks.
High-melting alloys show a monotonic increase in strength with decreasing grain size.
Bond weakening and interface energy changes explain the observed trends.
Abstract
Based on a thermodynamic approach, a unified formula was proposed to describe distinct Hall–Petch relationships (HPRs) of unalloyed nanostructured materials (u-NSs: Fe, Cu, Ni, Pd, and Mo) and alloyed ones with low- or high-melting temperature alloying metals (low-Tm or high-Tm a-NSs: NixMo1−x, FexZr1−x, NixCu1−x, and FexCu1−x). As the grain size decreases to several nanometers, the yield strength first increases and then decreases for u-NSs and low-Tm a-NSs, obeying the inverse HPR (IHPR), while it monotonically increases for high-Tm a-NSs. For the former, the decrease is induced by the reduction in activation energies of interface migration and dislocation gliding, along with the thermally driven decline, lattice expansion, and bond weakening of interface atoms. In the latter case, the monotonic increase or the elimination of IHPR is relevant to the negative interface energy induced…
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Taxonomy
TopicsMicrostructure and mechanical properties · nanoparticles nucleation surface interactions · Metallic Glasses and Amorphous Alloys
