Competing failure mechanisms of thin metal films on polymer substrates under tension

Competing failure mechanisms of thin metal films on polymer substrates under tension

The ductility of thin metal films on polymer substrates reported in recent experiments has a huge disparity, ranging from less than 1 % up to more than 50 %. To reveal the underpinning origins for such a large variation, this paper reports a systematic computational study of two competing failure me...

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Veröffentlicht in:Theoretical and applied mechanics letters 2011-01, Vol.1 (4), p.15-18, Article 041002
Hauptverfasser: Li, Teng, Zhang, Zhao, Michaux, Benoit
Format: Artikel
Sprache:eng
Schlagworte:
ductility
grain boundaries
nanocrystalline materials
polymers
thin metal films
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Zusammenfassung:The ductility of thin metal films on polymer substrates reported in recent experiments has a huge disparity, ranging from less than 1 % up to more than 50 %. To reveal the underpinning origins for such a large variation, this paper reports a systematic computational study of two competing failure mechanisms: metal film necking and grain boundary cracking. The quantitative results suggest that strong grain boundaries and metal/polymer interfacial adhesion are keys to achieve high ductility of polymer-supported metal films.
ISSN:2095-0349
2095-0349
DOI:10.1063/2.1104102