In a recent article available on the Advanced Functional Materials website, researchers in the College of Engineering and Natural Sciences at The University of Tulsa have demonstrated a new composite that can indicate damage using visual, temperature or magnetic detection. The article “Multimodal Damage Detection in Self-Sensing Fiber Reinforced Composites,” written by TU Ph.D. candidate Matthew D. Crall, Samuel G. Laney (BS ’16, MS ’18) and Associate Professor of Mechanical Engineering Michael Keller, discusses how the new material is a significant step forward in developing biomimetic materials that allow for rapid and simple detection of damage. This new technology has potential applications in aerospace, where inspecting composite materials (such as carbon fiber or fiberglass) for hidden damage is a complicated and time-consuming process.
Damage detection is critical in these applications since even small damaged regions in composites can reduce the strength of the material by as much as half. The composite works by incorporating a small channel, such as a blood vessel, that is filled with a liquid, like blood. Damage breaks open the channels and the fluids bleed into the damaged area where they react and form magnetic particles. These particles can then be detected by a magnetic detector, heated by a magnetic field and imaged with an IR camera, or seen visually by the color change associated with the reaction.
To learn more about this research and the published paper in Advanced Functional Materials, please contact Associate Professor of Mechanical Engineering Michael Keller at 918-631-3198 or email@example.com.