Real-time in Situ Sensing of Damage Evolution in Advanced Fiber Composites Using Carbon Nanotube Networks

Overview

Journal Nanotechnology

Specialty Biotechnology

Date 2011 Jul 7

PMID 21730592

Citations 12

Authors

Erik T Thostenson

Tsu-Wei Chou

Affiliations

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Abstract

Developments in producing nanostructured materials with novel properties have opened up new opportunities in which unique functionality can be added to existing material systems. As advanced fiber composites are utilized more frequently in primary structural applications there is a key challenge to enhance the performance and reliability while reducing maintenance. As a consequence there is tremendous scientific and technical interest in the development of techniques for monitoring the health of composite structures where real-time sensing can provide information on the state of microstructural damage. In this research we utilize electrically conductive networks of carbon nanotubes as in situ sensors for detecting damage accumulation during cyclic loading of advanced fiber composites. Here we show that, by combining load and strain measurements in real-time with direct current electrical resistance measurements of the carbon nanotube network, insight can be gained toward the evolution and accumulation of damage. The resistance/strain relations show substantial hysteresis due to the formation and opening/closing of cracks during cyclic loading. Through interpreting the resistance response curves we identify a parameter that may be utilized as a quantitative measure of damage.

Citing Articles

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Biomedical Applications of CNT-Based Fibers.

Jeong Y, Kwon M, Shin S, Lee J, Kim K Biosensors (Basel). 2024; 14(3).

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Electrical Conductivity of Glass Fiber-Reinforced Plastic with Nanomodified Matrix for Damage Diagnostic.

Stankevich S, Bulderberga O, Tarasovs S, Zeleniakiene D, Omastova M, Aniskevich A Materials (Basel). 2021; 14(16).

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Influence of Manufacturing Process in Structural Health Monitoring and Mechanical Behaviour of CNT Reinforced CFRP and Ti6Al4V Multi-Material Joints.

Dasilva S, Jimenez-Suarez A, Rodriguez E, Prolongo S Polymers (Basel). 2021; 13(15).

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Challenges in Design and Fabrication of Flexible/Stretchable Carbon- and Textile-Based Wearable Sensors for Health Monitoring: A Critical Review.

Heo J, Hossain M, Kim I Sensors (Basel). 2020; 20(14).

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