The target of the proposed work is to provide additional properties to aircraft composite surfaces including color play that is heat sensitive and/or impact sensitive and which provides the coatings with a special mechanism that recognizes external force (heat/impact) to the coating and also preserves a record of the insult imposed upon the coating. In earlier work, Toposol LLC has developed nanoparticles that can be dispersed in coatings, are heat and impact sensitive and respond with color play. To date, the color -temperature of exposure scale is qualitative. As part of the proposed work, a quantitative color scale will be developed that directly relates to the highest temperature the coating is exposed to; also, the relationship of the color and time of exposure to a given high temperature will be defined to be able to monitor and distinguish multiple insults. Studies will be made to determine whether there are any impacts of the nanoparticle coatings affecting radar or thermal signatures or other stealth related properties. A scooping study is planned to determine the range of impact force over which the smart coating will perform and to relate the force of impact to the visible pattern that develops.
Benefits: The benfits of the research are to provide additional properties to aircraft composite surfaces through heat and impact sensitive color play based on nanotechnology. Since the smart coating monitors the degree of insult using dispersed nanocusters inside the coating, the first commercial application is anticipated to be aircraft surfaces followed by natual gas and/or hydrogen fuel tanks for commercial vehicles.
Keywords: Nanoparticles, Smart Coating, Color Indicator For Impact Response, Color Monitor For Temperature Response, Plasmon Energies, Composites, Damage Sensor