Scalable and passive carbon nanotube thin-film sensor for detecting micro-strains and potential impact damage in fiber-reinforced composite materials - Archive ouverte HAL
Article Dans Une Revue Journal of Nanostructured Polymers and Nanocomposites Année : 2023

Scalable and passive carbon nanotube thin-film sensor for detecting micro-strains and potential impact damage in fiber-reinforced composite materials

Résumé

Structural health monitoring (SHM) of brittle structures will require versatile sensing instrumentation that can transmitting transient loadings into rapid electrical responses. This research investigated the sensing performance of CNT Buckypaper (CNT-BP) thin-films on stressed fiber-reinforced composites, which are integral materials to various industries of the infrastructure. Three-point bending experiments revealed an extraordinary gauge factor (∼40) and impressive response linearity. Electrical responses were instantaneous; moreover, low force impacts were detectable, the sensors provided clear indications of spatial recognition. Most importantly, the manufacturing methods are scalable and cost effective compared to commercialized strain gauges. This study examined micro-strain measurements (<1%) of carbon fiber composites, in which bending strain of 0.002% could be detected. In addition, damage progressions of glass fiber composites were recorded in response to low-impact energies. Less than 20 J of impact energy was detectable by the sensor, and the severity could be assessed from drastic changes in the sensing behavior.

Dates et versions

hal-04567954 , version 1 (03-05-2024)

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Joshua Degraff, Pierre-Jean Cottinet, Minh-Quyen Cottinet, Tarik Dickens, Kunal Joshi, et al.. Scalable and passive carbon nanotube thin-film sensor for detecting micro-strains and potential impact damage in fiber-reinforced composite materials. Journal of Nanostructured Polymers and Nanocomposites, 2023, 9 (1), pp.215-230. ⟨10.1080/20550324.2023.2291625⟩. ⟨hal-04567954⟩
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