DEDALO: Application of Structural Health Monitoring Systems on UHTC Structures~!2009-06-29~!2009-07-11~!2010-04-20~!

Abstract: In aerospace applications the development of a reliable method of structural health monitoring (SHM) is one of the most important keys in maintaining the integrity and safety of structures, preventing catastrophic failure. The research program DEDALO aims at developing a real size UHTC-based prototype with a complex shape equipped with a SHM system for damage detection. A multidisciplinary approach has been adopted involving mechanical design, materials science, manufacturing processes and development of optic… Show more

“…A number of researchers have begun to concentrate efforts on the practical aspects of using RFBGs in high-temperature structures. Latini et al [2,31] developed a prototype for a structural health monitoring (SHM) system using high-temperature-resistant FBG sensors to measure temperature, and using a silica-sapphire-based extrinsic Fabry-Perot interferometric (EFPI) sensor to measure strain with working temperature up to 800 °C. Méndez [32,33] and Selfridge et al [34] mounted CCGs onto a metal shim using a silica-filled epoxy compound, providing a pre-packaged FBG sensor that can be spot-welded onto a hot metal structure up to 800 °C.…”

Measurement of the high-temperature strain of UHTC materials using chemical composition gratings

“…A number of researchers have begun to concentrate efforts on the practical aspects of using RFBGs in high-temperature structures. Latini et al [2,31] developed a prototype for a structural health monitoring (SHM) system using high-temperature-resistant FBG sensors to measure temperature, and using a silica-sapphire-based extrinsic Fabry-Perot interferometric (EFPI) sensor to measure strain with working temperature up to 800 °C. Méndez [32,33] and Selfridge et al [34] mounted CCGs onto a metal shim using a silica-filled epoxy compound, providing a pre-packaged FBG sensor that can be spot-welded onto a hot metal structure up to 800 °C.…”

Measurement of the high-temperature strain of UHTC materials using chemical composition gratings