Sandwiched carbon nanotube film as strain sensor

被引:63
|
作者
Njuguna, M. K. [1 ]
Yan, C. [1 ]
Hu, N. [2 ]
Bell, J. M. [1 ]
Yarlagadda, P. K. D. V. [1 ]
机构
[1] Queensland Univ Technol, Sch Engn Syst, Brisbane, Qld 4000, Australia
[2] Chiba Univ, Dept Mech Engn, Inage Ku, Chiba 2638522, Japan
来源
COMPOSITES PART B-ENGINEERING | 2012年 / 43卷 / 06期
关键词
Smart materials; Nano-structures; Polymer-matrix composites; Electrical properties; ELECTRICAL-PROPERTIES; FABRICATION;
D O I
10.1016/j.compositesb.2012.04.022
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Two types of carbon nanotube nanocomposite strain sensors were prepared by mixing carbon nanotubes with epoxy (nanocomposite sensor) and sandwiching a carbon nanotube film between two epoxy layers (sandwich sensor). The conductivity, response and sensitivity to static and dynamic mechanical strains in these sensors were investigated. The nanocomposite sensor with 2-3 wt.% carbon nanotube demonstrated high sensitivity to mechanical strain and environmental temperature, with gauge factors of 5-8. On the other hand, a linear relationship between conductivity and dynamic mechanical strain was observed in the sandwich sensor. The sandwich sensor was also not sensitive to temperature although its strain sensitivity (gauge factor of about 3) was lower as compared with the nanocomposite sensor. Both sensors have excellent response to static and dynamic strains, thereby having great potential for strain sensing applications. (C) 2012 Elsevier Ltd. All rights reserved.
引用
收藏
页码:2711 / 2717
页数:7
相关论文
共 50 条
  • [21] Modeling of an embedded carbon nanotube based composite strain sensor
    Boehle, M.
    Pianca, P.
    Lafdi, K.
    Chinesta, F.
    ADVANCES IN AIRCRAFT AND SPACECRAFT SCIENCE, 2015, 2 (03): : 263 - 273
  • [22] Tunneling effect in a polymer/carbon nanotube nanocomposite strain sensor
    Hu, Ning
    Karube, Yoshifumi
    Yan, Cheng
    Masuda, Zen
    Fukunaga, Hisao
    ACTA MATERIALIA, 2008, 56 (13) : 2929 - 2936
  • [23] Carbon Nanotube-Based Nanoelectromechanical Resonator as Strain Sensor
    Elseddawy, Ahmed M.
    Zein, Walid A.
    Phillips, Adel H.
    JOURNAL OF COMPUTATIONAL AND THEORETICAL NANOSCIENCE, 2014, 11 (04) : 1174 - 1177
  • [24] Development of carbon-nanotube-based nanocomposite strain sensor
    Pham, Giang T.
    Park, Young-Bin
    Wang, Ben
    MANUFACTURING ENGINEERING AND MATERIALS HANDLING, 2005 PTS A AND B, 2005, 16 : 987 - 993
  • [25] Investigation on sensitivity of a polymer/carbon nanotube composite strain sensor
    Hu, Ning
    Karube, Yoshifumi
    Arai, Masahiro
    Watanabe, Tomonori
    Yan, Cheng
    Li, Yuan
    Liu, Yaolu
    Fukunaga, Hisao
    CARBON, 2010, 48 (03) : 680 - 687
  • [26] Helical gold nanotube film as stretchable micro/nanoscale strain sensor
    Deng, Chenghao
    Pan, Lujun
    Li, Chengwei
    Fu, Xin
    Cui, Ruixue
    Nasir, Habib
    JOURNAL OF MATERIALS SCIENCE, 2018, 53 (03) : 2181 - 2192
  • [27] Helical gold nanotube film as stretchable micro/nanoscale strain sensor
    Chenghao Deng
    Lujun Pan
    Chengwei Li
    Xin Fu
    Ruixue Cui
    Habib Nasir
    Journal of Materials Science, 2018, 53 : 2181 - 2192
  • [28] OPTICAL TYPE STRAIN SENSOR BASED ON VARIABLE-TRANSMITTANCE OF CARBON NANOTUBE EMBEDDED ELASTOMER THIN FILM
    Gu, Jimin
    Kwon, Donguk
    Park, Inky
    2018 IEEE MICRO ELECTRO MECHANICAL SYSTEMS (MEMS), 2018, : 889 - 892
  • [29] The study of adsorption gas sensor based carbon nanotube film
    Li, X
    Liu, JH
    Zhu, CC
    SCIENCE IN CHINA SERIES E-TECHNOLOGICAL SCIENCES, 2005, 48 (04): : 372 - 384
  • [30] The study of adsorption gas sensor based carbon nanotube film
    Xin Li
    Junhua Liu
    Changchun Zhu
    Science in China Ser. E Engineering & Materials Science, 2005, 48 : 372 - 384
12345