A Viscoelastic Model for the Rate Effect in Transfer Printing
Journal of Applied Mechanics2012Vol. 80(4)
Citations Over TimeTop 18% of 2012 papers
Huanyu Cheng, Mingwu Li, Jian Wu, J. Andrew Carlson, S. Kim, Yonggang Huang, Zhan Kang, Keh‐Chih Hwang, John A. Rogers
Abstract
Transfer printing is a volatile tool to retract micro devices from a donor substrate via elastomeric stamps, from which the devices are grown or fabricated, followed by printing to a receiver substrate where the device is assembled to an array for integration in various applications. Among the five approaches of transfer printing summarized in the paper, the viscoelastic property of stamps is widely adopted to modulate the interfacial adhesion between the stamp and devices by applying different pulling speeds. A viscoelastic model for transfer printing is analytically established. It shows that the interfacial adhesion increases with pulling speed, which is verified by the experiments and numerical simulations.
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