Rice University

Events at Rice

Thesis Defense

Graduate and Postdoctoral Studies
Civil and Environmental Engineering

Speaker: Peng Sun
Doctoral Candidate

Strain-Sensing Smart Skin for Structural Health Monitoring

Thursday, February 23, 2017
9:30 AM  to 11:30 AM

112  Ryon Engineering Building


Over the past twenty years, many structural health monitoring strategies and damage detection techniques/methods have been proposed. Traditional technologies used for measuring strain, such as resistance strain gages, can monitor only at discrete locations and along specific directions, and have limited ability to measure strains on small length scales. Optical fiber sensors and more specifically fiber Bragg grating (FBG) sensors are also widely used in health monitoring of structures, offering strain and temperature readings. However, practical issues, such as deployment of the optical fibre to the structure and connectors and the high cost of the FBGs, need to be addressed. Some emerging full-filed non-contact strain sensing techniques, such as interferometric techniques, non-interferometric techniques and Raman spectroscopy techniques, have other limitations. A non-contact, full-filed strain sensing technique is needed to perform fast Structural Health Monitoring on structures. In this thesis, the prototype generation of a novel non-contact strain measurement technology is developed using raw HiPco single-walled carbon nanotubes (SWCNTs) and a commercial urethane varnish. This approach exploits the characteristic short-wave infrared fluorescence signatures of semiconducting SWCNTs and the systematic shifts of their fluorescence wavelengths when the nanotubes are axially strained. A strain-sensing smart skin (S4) is prepared by coating the surface to be monitored with a thin film of a composite containing well dispersed SWCNTs embedded in a polymeric host. Strain in the substrate is transmitted through the polymer to the nanotubes, causing systematic and predictable spectral shifts of the nanotube near-infrared fluorescence peak wavelengths. This promising new method should allow quick and precise strain measurements at any position and along any direction of the substrate.

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