Ligament morphology and elastic modulus of porous structure formed by liquid metal dealloying

Lijie Zou, Jun-Chao Shao, Hai-Jun Jin
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Abstract

We report that the morphology of ligaments also governs the mechanical properties of dealloyed porous materials, in addition to the topology- and size-effects that have been extensively studied previously. Porous Fe–Cr with similar relative density but different Cr content were prepared by liquid metal dealloying. The mechanical efficiency of this material, which is quantified by relative elastic modulus, decreases dramatically with increasing Cr content, although the relative density and network connectivity do not vary significantly. This is linked to the more severe spheroidization of Fe–Cr ligaments at higher Cr, driven by the large excess energy of solid-liquid interfaces and interface energy anisotropy of Fe–Cr under dealloying environment. A shape parameter is introduced to quantitatively account for this ligament-morphology effect. Current study suggests that tailoring interfacial energy, which was largely overlooked in previous studies, is essential to improving the mechanical efficiency of porous or nanoporous materials self-organized in dealloying.
液态金属脱合金形成的多孔结构的韧带形态和弹性模量
我们报告说,除了以前广泛研究过的拓扑和尺寸效应之外,韧带的形态也制约着脱合金多孔材料的机械性能。通过液态金属脱合金制备了相对密度相似但铬含量不同的多孔铁铬材料。这种材料的机械效率(以相对弹性模量量化)随着铬含量的增加而急剧下降,尽管相对密度和网络连通性没有显著变化。这与铬含量越高,Fe-Cr韧带的球化程度越严重有关,其原因是在脱合金环境下,Fe-Cr的固液界面和界面能量各向异性的过剩能量很大。为定量解释这种韧带形态效应,引入了一个形状参数。目前的研究表明,定制界面能对于提高多孔或纳米多孔材料在脱合金过程中自组织的机械效率至关重要,而这一点在以往的研究中大多被忽视。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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