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Poisson's Ratios of Honeycomb-Structured Polymer Sheets Under Large Deformation

✍ Scribed by Dae-Yoon Kim; Namil Kim; Seok-Ho Hwang; Shiao-Wei Kuo; Jong-Hoon Lee; Sang-A Lee; Joong Hee Lee; Changwoon Nah; Kwang-Un Jeong

Publisher
John Wiley and Sons
Year
2011
Tongue
English
Weight
796 KB
Volume
212
Category
Article
ISSN
1022-1352

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✦ Synopsis

Abstract

The mechanical properties of 2D honeycomb‐structured polymer sheets (HSPS) are investigated with respect to the polar angle at large deformation. The tensile force fluctuates as an undamped negative sinusoidal wave with a periodicity of 15°. The amplitude of the fluctuation is proportional to the thickness of the HSPS, but the Young's modulus is independent of the thickness and the polar angle. Total and local Poisson's ratios of HSPS at the 30° polar angle are lower than those obtained at the 0° polar angle over the entire strain range, and the difference becomes smaller with increasing tensile strain. The experimentally observed structure–property relationship of the HSPS can provide important clues for understanding the deformation behavior of patterned polymeric materials.

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✍ Kwang-Yong Jin; Dae-Yoon Kim; So-Eun Kim; Shiao-Wei Kuo; Joong Hee Lee; Min-Youn 📂 Article 📅 2011 🏛 John Wiley and Sons 🌐 English ⚖ 820 KB

## Abstract To construct the structure/property relationships of patterned polymer architectures depending on symmetry, the large‐deformation behavior of 2D HSPS with respect to the polar angle was studied. Holes aligned along the HSPS apex were more effective in decreasing tensile force and reduci