Intrinsic Toughness/Brittleness of Nanoporous Ag: Depending on Network Connectivity and Micro-Cracks

Nanomaterials eJournal Pub Date : 1900-01-01 DOI:10.2139/ssrn.3458130

Chaoyang Wang, Shengli Zhu, Yanqin Liang, Z. Cui, C. Qin, A. Inoue

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Abstract

The effective engineering applications of nanoporous metals (NPMs) require uniform ligaments network, specifically crack-free and ductile monolithic bodies. Here we investigate the effects of ligament-network connectivity and micro-cracks on the mechanical properties of nanoporous Ag (np Ag). The well-interconnected np Ag metal exhibits higher tensile strength, nanohardness and Vickers hardness than those for the ill-interconnected np Ag metal. The quality of the network connectivity dominates the strength and hardness of the np Ag. The ductility/brittleness is determined by the micro-crack in np Ag. The crack-free np Ag exhibits good ductile behavior. When micro-cracks are introduced, the np Ag becomes brittle. The np Ag with many micro-cracks is easily crushed because the cracks nucleate from the inherent micro-cracks and quickly propagate along the concentrated stress. The low values of volume shrinkage rate (V_sr) and surface diffusivity (D_s) effectively suppress the crack initiation and propagation of as-formed np Ag. These results provide useful insights to synthesize more flexible and crack-free NPM materials for effective use in diverse engineering applications.

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纳米多孔银的固有韧性/脆性:基于网络连通性和微裂纹

纳米多孔金属(npm)的有效工程应用需要均匀的韧带网络，特别是无裂纹和延展性的整体体。本文研究了韧带网络连通性和微裂纹对纳米多孔银(np Ag)力学性能的影响。互连良好的np银金属比互连不良的np银金属具有更高的抗拉强度、纳米硬度和维氏硬度。网络连通性的好坏决定了纳米银的强度和硬度。合金的延性/脆性由微裂纹决定。无裂纹的np银具有良好的延性。引入微裂纹后，纳米银变脆。含有许多微裂纹的np银容易破碎，因为裂纹由固有的微裂纹成核并沿集中应力迅速扩展。较低的体积收缩率(Vsr)和表面扩散率(Ds)有效地抑制了形成态np Ag的裂纹萌生和扩展。这些结果为合成更灵活和无裂纹的NPM材料提供了有用的见解，以便在各种工程应用中有效使用。

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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Nanomaterials eJournal

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