Flexible Electronics: A Bi‐Sheath Fiber Sensor for Giant Tensile and Torsional Displacements (Adv. Funct. Mater. 35/2017),Advanced Functional Materials

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Flexible Electronics: A Bi‐Sheath Fiber Sensor for Giant Tensile and Torsional Displacements (Adv. Funct. Mater. 35/2017)
Advanced Functional Materials ( IF 19.0 ) Pub Date : 2017-09-18 , DOI: 10.1002/adfm.201770205
Run Wang _{1,

2,

3} , Nan Jiang ₄ , Jian Su _{3,

5} , Qu Yin ₂ , Yue Zhang ₂ , Zhongsheng Liu ₁ , Haibao Lin ₄ , Francisco A. Moura ₆ , Ningyi Yuan ₂ , Siegmar Roth ₇ , Richard S. Rome ₇ , Raquel Ovalle-Robles ₈ , Kanzan Inoue ₈ , Shougen Yin ₅ , Shaoli Fang _{4,

7} , Weichao Wang ₃ , Jianning Ding ₂ , Linqi Shi ₁ , Ray H. Baughman _{4,

7} , Zunfeng Liu ₁

Affiliation

A highly stretchable, resistive strain sensor composed of a bi‐sheath structure is described by Jianning Ding, Linqi Shi, Zunfeng Liu, and co‐workers in article number 1702134. Buckles of a carbon nanotube sheath contact with one another under compression of an underlying buckled elastomer sheath, which is co‐axially coated on a rubber fiber. Stretching separates the buckles, resulting in linear increase of resistance with strain.

中文翻译：

柔性电子：用于巨大拉伸和扭转位移的双护套光纤传感器（高级功能，材料35/2017）

丁建宁，石林奇，刘尊峰和同事在文章编号1702134中描述了一种由双护套结构组成的高度可拉伸的电阻应变传感器。碳纳米管护套的扣环在底层的压缩下相互接触。弯曲的弹性体护套，同轴包覆在橡胶纤维上。拉伸将带扣分开，导致电阻随应变线性增加。

更新日期：2017-09-18

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