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Large-Deformation Behavior of Honeycomb-Structured Polymer Sheets as a Function of Polar Angle

✍ Scribed by Kwang-Yong Jin; Dae-Yoon Kim; So-Eun Kim; Shiao-Wei Kuo; Joong Hee Lee; Min-Young Lyu; Seok-Ho Hwang; Alan N. Gent; Changwoon Nah; Kwang-Un Jeong

Publisher: John Wiley and Sons
Year: 2011
Tongue: English
Weight: 820 KB
Volume: 212
Category: Article
ISSN: 1022-1352
DOI: 10.1002/macp.201000708

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✦ Synopsis

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 reducing stress concentration than those located along the plane. On varying the polar angle from 0 to 30°, the tensile force fluctuated up and down like an undamped negative sinusoidal wave with a wavelength of 15°. Additionally, molecular orientations of HSPS were monitored in situ. By comparing experimental measurements with computer simulations, it was concluded that the tensile force depends on the number of holes as well as the orientation of the axes of the honeycomb structure. magnified image

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## 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 proportio