2018
DOI: 10.3390/s18051362
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Thermochromic Polymer Film Sensors for Detection of Incipient Thermal Damage in Carbon Fiber–Epoxy Composites

Abstract: Carbon fiber–epoxy composites have become prevalent in the aerospace industry where mechanical properties and light weight are at a premium. The significant non-destructive evaluation challenges of composites require new solutions, especially in detecting early-stage, or incipient, thermal damage. The initial stages of thermal damage are chemical rather than physical, and can cause significant reduction in mechanical properties well before physical damage becomes detectable in ultrasonic testing. Thermochromic… Show more

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Cited by 5 publications
(2 citation statements)
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signals with regenerated and reusable characters have received a great deal of attention recently for their numerous applications in high-tech fields such as sensors, [1] smart windows, [2,3] displays, [4] rewritable copy papers, [5] secret writings, [6] anti-counterfeiting, etc. [7][8][9][10] Among multistimuli responsive materials, crystalline chromic compounds such as spiropyran, [11] azobenzene, [12] diarylethenes, [13] spirooxazine, [14] and viologen, [14] with reversible hue shifts have received a significant lot of interest.
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mentioning
confidence: 99%
“…
signals with regenerated and reusable characters have received a great deal of attention recently for their numerous applications in high-tech fields such as sensors, [1] smart windows, [2,3] displays, [4] rewritable copy papers, [5] secret writings, [6] anti-counterfeiting, etc. [7][8][9][10] Among multistimuli responsive materials, crystalline chromic compounds such as spiropyran, [11] azobenzene, [12] diarylethenes, [13] spirooxazine, [14] and viologen, [14] with reversible hue shifts have received a significant lot of interest.
…”
mentioning
confidence: 99%
“…Mechanophore- and mechanochemical-based sensors and probe molecules in the mechanochemistry research area have progressed considerably over the past years [ 448 , 449 , 450 , 451 , 452 , 453 ]. In contrast, thermo- and electrochromic have advanced differently with less attention on thermochromic fluorescence [ 454 ], thermochromic sensors [ 455 ] and electrochromic sensors [ 456 ]. Self-diagnosis and self-reporting, as well as, self-damage sensing that correlates the electrical conductivity of the CNTs or graphene flakes composite with damage severity [ 457 , 458 , 459 ], or utilizes electrical resistance tomography mapping [ 460 ] can be further improved using the unique properties of thermo- and electrochromic polymeric materials.…”
Section: Sensor Building Blocksmentioning
confidence: 99%