Mechanical response of spiral interconnect arrays for highly stretchable electronics

A spiral interconnect array is a commonly used architecture for stretchable electronics, which accommodates large deformations during stretching. Here, we show the effect of different geometrical morphologies on the deformation behavior of the spiral island network. We use numerical modeling to calc...

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Bibliographic Details
Published in:Applied physics letters 2017-11, Vol.111 (21)
Main Authors: Qaiser, N., Khan, S. M., Nour, M., Rehman, M. U., Rojas, J. P., Hussain, M. M.
Format: Article
Language:English
Subjects:
Angular position
Applied physics
Arrays
Deformation
Deformation effects
Deformation mechanisms
Diamonds
Electronics
Elongation
Interconnections
Mathematical models
Mathematical morphology
Mechanical analysis
Stretchability
Three dimensional printing
Unit cell
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Summary:A spiral interconnect array is a commonly used architecture for stretchable electronics, which accommodates large deformations during stretching. Here, we show the effect of different geometrical morphologies on the deformation behavior of the spiral island network. We use numerical modeling to calculate the stresses and strains in the spiral interconnects under the prescribed displacement of 1000 μm. Our result shows that spiral arm elongation depends on the angular position of that particular spiral in the array. We also introduce the concept of a unit-cell, which fairly replicates the deformation mechanism for full complex hexagon, diamond, and square shaped arrays. The spiral interconnects which are axially connected between displaced and fixed islands attain higher stretchability and thus experience the maximum deformations. We perform tensile testing of 3D printed replica and find that experimental observations corroborate with theoretical study.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.5007111