高亏格纳米多孔金属中粗化和气泡形成的机理。

Mechanism of coarsening and bubble formation in high-genus nanoporous metals.

机构信息

Johns Hopkins University, Department of Materials Science and Engineering, Baltimore, Maryland 21218, USA.

出版信息

Phys Rev Lett. 2011 Jun 3;106(22):225504. doi: 10.1103/PhysRevLett.106.225504.

DOI:10.1103/PhysRevLett.106.225504

Abstract

Coarsening of crystalline nanoporous metals involves complex changes in topology associated with the reduction of genus via both ligament pinch-off and void bubble formation. Although void bubbles in metals are often associated with vacancy agglomeration, we use large-scale kinetic Monte Carlo simulations to show that both bubble formation and ligament pinch-off are natural results of a surface-diffusion-controlled solid-state Rayleigh instability that controls changes in the topology of the porous material during coarsening. This result is used to find an effective activation energy for coarsening in nanoporous metals that is associated with the reduction of topological genus, and not the reduction of local surface roughness.

摘要

晶态纳米多孔金属的粗化涉及拓扑结构的复杂变化，这与通过韧带压断和空洞气泡形成来降低屈从数有关。尽管金属中的空洞气泡通常与空位聚集有关，但我们使用大规模的动力学蒙特卡罗模拟表明，气泡形成和韧带压断都是控制多孔材料拓扑结构在粗化过程中变化的表面扩散控制的固态瑞利不稳定性的自然结果。这一结果用于确定纳米多孔金属中与拓扑屈从数减少相关的有效粗化激活能，而不是与局部表面粗糙度减少相关的有效粗化激活能。

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高亏格纳米多孔金属中粗化和气泡形成的机理。

Mechanism of coarsening and bubble formation in high-genus nanoporous metals.

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