Tensile testing of cylindrical multi-shell Cu nanowire

Won Woo Kim; Jeong Won Kang; Tae Won Kim; Ho Jung Hwang; and Gyu Young; Lee

arXiv:cond-mat/0202033·cond-mat.mtrl-sci·May 23, 2007·3 cites

Tensile testing of cylindrical multi-shell Cu nanowire

Won Woo Kim, Jeong Won Kang, Tae Won Kim, Ho Jung Hwang, and Gyu Young, Lee

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TL;DR

This paper presents a simulation study of tensile testing on cylindrical multi-shell copper nanowires, revealing their structural transformation into pentagonal configurations under elongation.

Contribution

It introduces a novel simulation of tensile deformation in multi-shell Cu nanowires, highlighting their transformation into pentagonal structures.

Findings

01

Nanowires transform into pentagonal structures under tensile stress

02

Structural details of multi-shell Cu nanowires are characterized

03

Simulation results provide insights into nanowire deformation mechanisms

Abstract

We have simulated the tensile testing of cylindrical multi-shell Cu nanowire. Elongated cylindrical multi-shell Cu nanowire was transformed into a pentagonal structure. Pentagonal nanowires are composed of a central atomic strand and pentagonal tubes made of five-times-folded <110>{100} sheets.

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Taxonomy

TopicsAnodic Oxide Films and Nanostructures · Electronic Packaging and Soldering Technologies · Nanofabrication and Lithography Techniques