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Philosophical Magazine Volume 90, 2010 - Issue 31-32: A collection of papers on Materials Science to celebrate the 80th birthday of Professor Anthony Kelly, CBE, FRS
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Original Articles

Damage monitoring in fiber-reinforced composites under fatigue loading using carbon nanotube networks

Limin Gao Key Laboratory of Aerospace Materials and Performance (Ministry of Education), School of Materials Science and Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100191, China
,
Erik T. Thostenson Department of Mechanical Engineering and Center for Composite Materials, University of Delaware, Newark, DE 19716, USA
,
Zuoguang Zhang Key Laboratory of Aerospace Materials and Performance (Ministry of Education), School of Materials Science and Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100191, China
,
Joon-Hyung Byun Composite Materials Research Group, Korea Institute of Materials Science, Changwon 641-010, South Korea
&
Tsu-Wei Chou Department of Mechanical Engineering and Center for Composite Materials, University of Delaware, Newark, DE 19716, USACorrespondence[email protected]
Pages 4085-4099 | Received 15 Jul 2009, Accepted 11 Sep 2009, Published online: 28 Apr 2010
 
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Abstract

The formation of carbon nanotube networks around the structural reinforcement in fiber composites has enabled in situ monitoring of matrix damage accumulation. Real-time monitoring of damage development under fatigue loading was studied. The electrical response of the fatigue specimens change synchronously with the applied fatigue loading and enable a quantitative measure of the damage state. The fatigue response of the nanotube network was examined and the damage accumulation validated using microscopic technique. Various damage stages in composite cross-ply laminates under fatigue loading can be clearly detected by adopting the quantitative parameter, damaged resistance change. The sensitivity of the technique to the onset and accumulation of damage may enable future life prediction methodologies.

Acknowledgements

This work is funded by the Office of Naval Research (Grant No. #N00014-07-1-0621; Dr Roshdy George S. Barsoum, Program Director) and the Korea Foundation for International Cooperation of Science & Technology (KICOS) through a grant provided by the Korean Ministry of Education, Science & Technology (MEST) (K20704000090). Limin Gao is supported by the State Scholarship Fund of the China Scholarship Council.

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