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Jang, Sei-Hum
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Publications (10/10 displayed)
- 2019NDE THERMAL MAPPING USING THERMOCHROMIC SENSOR FILMS
- 2018Thermochromic Polymer Film Sensors for Detection of Incipient Thermal Damage in Carbon Fiber–Epoxy Compositescitations
- 2017Detection of incipient thermal damage in carbon fiber-epoxy composites using fluorescent thermal sensor films
- 2016Time temperature indicator film for monitoring composite repair adhesive cure using thermochromic fluorescent molecules
- 2014Time-temperature indicator for evaluating incipient thermal damage of CFRP
- 2014Damage detection for aerospace composites using matrix resins functionalized with fluorescent probe molecules
- 2013Influence of matrix resin mechanical properties on mechanochromic fluorescent damage probe response
- 2013Thermal damage detection of CFRP using coatings doped with fluorescent probes
- 2005Exceptional electro-optic properties through molecular design and controlled self-assemblycitations
- 2005Acentric lattice electro-optic materials by rational designcitations
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document
Time-temperature indicator for evaluating incipient thermal damage of CFRP
Abstract
Incipient thermal damage is a significant issue for CFRP composites because it is difficult to detect by common NDE techniques like ultrasound and it can cause fiber-matrix debonding, delamination, and matrix embrittlement which can reduce the mechanical properties of the composite. Diffuse reflectance infrared transform spectroscopy (DRIFTS) is capable of detecting incipient damage, but it has a small spot size that is not efficient for inspecting large areas for thermal damage. In our previous work a thermally activated fluorescent probe was shown to activate when the composite was thermally exposed. This "turn-on" type behavior could show that thermal exposure had occurred, but could not provide more details about the thermal event. In this study a method for estimating the time and temperature of the thermal exposure (a so-called time-temperature indicator or TTI) is presented. The basis for this method is combining two different thermally activated probes with different activation kinetics and emission wavelengths. Using ratiometric fluorescence to monitor the changes in the fluorescence spectra, time-temperature response curves can be generated that can be used for estimating the time and temperature of the thermal exposure. Copyright 2014 by Tucker Howie.