A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Fiber-reinforced composites for structural health monitoring
The authors have been studying the strain sensitive materials which are based on conductivity change resulting from structural change in percolation system. In this study, we have developed a maximum strain memory sensor, which enables to detect damage to structures easily even after a large earthquake. To confirm the performance as the sensor, tensile tests embedded into concrete specimen have been conducted. As a result, it is discovered that this sensor is sufficiently effective to diagnose cracks in the concrete structure.
Fiber-reinforced composites for structural health monitoring
The authors have been studying the strain sensitive materials which are based on conductivity change resulting from structural change in percolation system. In this study, we have developed a maximum strain memory sensor, which enables to detect damage to structures easily even after a large earthquake. To confirm the performance as the sensor, tensile tests embedded into concrete specimen have been conducted. As a result, it is discovered that this sensor is sufficiently effective to diagnose cracks in the concrete structure.
Fiber-reinforced composites for structural health monitoring
Kumagai, H. (author) / Shiraishi, M. (author) / Inada, H. (author) / Inada, Y. (author) / Okuhara, Y. (author) / Matsubara, H. (author)
Smart Structures and Materials 2006: Sensors and Smart Structures Technologies for Civil, Mechanical, and Aerospace Systems ; 2006 ; San Diego,California,United States
Proc. SPIE ; 6174
2006-03-17
Conference paper
Electronic Resource
English
Structural health monitoring from fiber-reinforced composites to steel-reinforced concrete
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