Mechanisms of reversible stretchability of thin metal films on elastomeric substrates

St́phanie P. Lacour; Donald Chan; Sigurd Wagner; Teng Li; Zhigang Suo

doi:10.1063/1.2201874

Mechanisms of reversible stretchability of thin metal films on elastomeric substrates

St́phanie P. Lacour
, Donald Chan
, Sigurd Wagner
, Teng Li
, Zhigang Suo

Princeton University
University of Cambridge
Harvard University

Research output: Contribution to journal › Article › peer-review

385 Scopus citations

Abstract

Gold films on an elastomeric substrate can be stretched and relaxed reversibly by tens of percent. The films initially form in two different structures, one continuous and the other containing tribranched microcracks. We have identified the mechanism of elastic stretchability in the films with microcracks. The metal, which is much stiffer than the elastomer, forms a percolating network. To accommodate the large elongation of the elastomeric substrate, the metal network twists and deflects out of the plane but remains bonded to the soft substrate. Consequently, the metal film experiences only small strains and deforms elastically without suffering fatigue.

Original language	English
Article number	204103
Journal	Applied Physics Letters
Volume	88
Issue number	20
DOIs	https://doi.org/10.1063/1.2201874
State	Published - 15 May 2006
Externally published	Yes

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title = "Mechanisms of reversible stretchability of thin metal films on elastomeric substrates",

abstract = "Gold films on an elastomeric substrate can be stretched and relaxed reversibly by tens of percent. The films initially form in two different structures, one continuous and the other containing tribranched microcracks. We have identified the mechanism of elastic stretchability in the films with microcracks. The metal, which is much stiffer than the elastomer, forms a percolating network. To accommodate the large elongation of the elastomeric substrate, the metal network twists and deflects out of the plane but remains bonded to the soft substrate. Consequently, the metal film experiences only small strains and deforms elastically without suffering fatigue.",

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AU - Lacour, St́phanie P.

AU - Chan, Donald

AU - Wagner, Sigurd

AU - Li, Teng

AU - Suo, Zhigang

PY - 2006/5/15

Y1 - 2006/5/15

N2 - Gold films on an elastomeric substrate can be stretched and relaxed reversibly by tens of percent. The films initially form in two different structures, one continuous and the other containing tribranched microcracks. We have identified the mechanism of elastic stretchability in the films with microcracks. The metal, which is much stiffer than the elastomer, forms a percolating network. To accommodate the large elongation of the elastomeric substrate, the metal network twists and deflects out of the plane but remains bonded to the soft substrate. Consequently, the metal film experiences only small strains and deforms elastically without suffering fatigue.

AB - Gold films on an elastomeric substrate can be stretched and relaxed reversibly by tens of percent. The films initially form in two different structures, one continuous and the other containing tribranched microcracks. We have identified the mechanism of elastic stretchability in the films with microcracks. The metal, which is much stiffer than the elastomer, forms a percolating network. To accommodate the large elongation of the elastomeric substrate, the metal network twists and deflects out of the plane but remains bonded to the soft substrate. Consequently, the metal film experiences only small strains and deforms elastically without suffering fatigue.

UR - https://www.scopus.com/pages/publications/33646892248

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DO - 10.1063/1.2201874

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Mechanisms of reversible stretchability of thin metal films on elastomeric substrates

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