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Extreme extensibility of copper foil under compound forming conditions.


ABSTRACT: A copper foil with an extreme extensibility up to 43,684% was obtained without any intermediate annealing by means of asynchronous rolling with high tension. It was found that under the combination of compression, shearing and tension, the copper foil represents a wonderful phenomenon. As the reduction increases, the specimen hardness increases up to a peak value 138 HV0.05 when the foil thickness rolled to around 100??m, and then it decreases down to 78 HV0.05 when the foil thickness rolled to the final size 19??m. It tells us that the strain-softening effect occurs when the foil thickness is rolled down to a threshold level. The experimental results bring us some fresh ideas different with the traditional understanding on the strain-hardening mechanism of metals, which provides an experimental basis to establish the forming mechanism of the thin foil.

SUBMITTER: Yu Q 

PROVIDER: S-EPMC6506452 | biostudies-literature | 2013 Dec

REPOSITORIES: biostudies-literature

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Extreme extensibility of copper foil under compound forming conditions.

Yu Qingbo Q   Liu Xianghua X   Tang Delin D  

Scientific reports 20131219


A copper foil with an extreme extensibility up to 43,684% was obtained without any intermediate annealing by means of asynchronous rolling with high tension. It was found that under the combination of compression, shearing and tension, the copper foil represents a wonderful phenomenon. As the reduction increases, the specimen hardness increases up to a peak value 138 HV0.05 when the foil thickness rolled to around 100 μm, and then it decreases down to 78 HV0.05 when the foil thickness rolled to  ...[more]

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