State-of-the-art in the applications of fiber-optic sensors to cementitious composites

Optical-fiber sensors are emerging as a superior non-destructive means for evaluating the condition of concrete structures. In contrast to existing non-destructive evaluation techniques, optical fibers are able to detect minute variations in structural conditions through remote measurements. Structu...

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Published inCement & concrete composites Vol. 19; no. 1; pp. 3 - 19
Main Author Ansari, Farhad
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 1997
Subjects
air content
Bragg gratings
bridge testing
composite materials
concrete
crack tip opening displacement
cracks
distributed sensors
Fabryperot sensor
fiber reinforced concrete
glass fiber reinforced plastic
high strength concrete
impact loading
infrastructure
intensity sensors
interferometric sensors
localized sensors
microcracks
nondestructive evaluation
Optical fiber sensors
polarimetric sensors
reinforced concrete
smart materials
concrete
fiber reinforced concrete
bridge testing
impact loading
localized sensors
high strength concrete
distributed sensors
Fabryperot sensor
interferometric sensors
microcracks
Bragg gratings
intensity sensors
Optical fiber sensors
polarimetric sensors
reinforced concrete
infrastructure
crack tip opening displacement
nondestructive evaluation
cracks
glass fiber reinforced plastic
smart materials
air content
composite materials
Online AccessGet full text
ISSN0958-9465
1873-393X
DOI10.1016/S0958-9465(96)00038-8

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Abstract Optical-fiber sensors are emerging as a superior non-destructive means for evaluating the condition of concrete structures. In contrast to existing non-destructive evaluation techniques, optical fibers are able to detect minute variations in structural conditions through remote measurements. Structures fully integrated with optical fibers will be able to monitor the initiation and progress of various mechanical or environmentally-induced degradations in concrete elements. Recent advances in fiber-optic sensor technology and the possibility of their use in concrete structures have instigated the development of a number of research activities. Owing to inherent interdisciplinary nature of the field of fiber optics, the expertise of the researchers active in the research and development of fiber-optic sensors covers a wide spectrum of disciplines including concrete engineering, as well as opto-electronics and physics. This article is intended for rapid dissemination of the current state-of-the-art in this emerging technology. However, because of the interdisciplinary nature of the subject, a brief discussion on the physical nature of optical fibers is also presented.
AbstractList Optical-fiber sensors are emerging as a superior non-destructive means for evaluating the condition of concrete structures. In contrast to existing non-destructive evaluation techniques, optical fibers are able to detect minute variations in structural conditions through remote measurements. Structures fully integrated with optical fibers will be able to monitor the initiation and progress of various mechanical or environmentally-induced degradations in concrete elements. Recent advances in fiber-optic sensor technology and the possibility of their use in concrete structures have instigated the development of a number of research activities. Owing to inherent interdisciplinary nature of the field of fiber optics, the expertise of the researchers active in the research and development of fiber-optic sensors covers a wide spectrum of disciplines including concrete engineering, as well as opto-electronics and physics. This article is intended for rapid dissemination of the current state-of-the-art in this emerging technology. However, because of the interdisciplinary nature of the subject, a brief discussion on the physical nature of optical fibers is also presented.
Optical-fiber sensors are emerging as a superior non-destructive means for evaluating the condition of concrete structures. In contast to existing non-destructive evaluation techniques, optical fibers are able to detect minute variations in structural conditions through remote measurements. Structures fully integrated with optical fibers will be able to monitor the initiation and progress of various mechanical or environmentally induced degradations in concrete elements. Recent advances in fiber-optic sensor technology and the possibility of their use in concrete structures have instigated the development of a number of research activities. Owing to inherent interdisciplinary nature of the field of fiber optics, the expertise of the researchers active in the research and development of fiber-optic sensors covers a wide spectrum of disciplines including concrete engineering and opto-electronics and physics. This article is intended for rapid dissemination of the current state-of-the-art in this emerging technology. However, because of the interdisciplinary nature of the subject, a brief discussion on the physical nature of opitcal fibers is also presented.
Author Ansari, Farhad
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Issue 1
Keywords concrete
fiber reinforced concrete
bridge testing
impact loading
localized sensors
high strength concrete
distributed sensors
Fabryperot sensor
interferometric sensors
microcracks
Bragg gratings
intensity sensors
Optical fiber sensors
polarimetric sensors
reinforced concrete
infrastructure
crack tip opening displacement
nondestructive evaluation
cracks
glass fiber reinforced plastic
smart materials
air content
composite materials
Language English
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PublicationTitle Cement & concrete composites
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Snippet Optical-fiber sensors are emerging as a superior non-destructive means for evaluating the condition of concrete structures. In contrast to existing...
Optical-fiber sensors are emerging as a superior non-destructive means for evaluating the condition of concrete structures. In contast to existing...
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SubjectTerms air content
Bragg gratings
bridge testing
composite materials
concrete
crack tip opening displacement
cracks
distributed sensors
Fabryperot sensor
fiber reinforced concrete
glass fiber reinforced plastic
high strength concrete
impact loading
infrastructure
intensity sensors
interferometric sensors
localized sensors
microcracks
nondestructive evaluation
Optical fiber sensors
polarimetric sensors
reinforced concrete
smart materials
Title State-of-the-art in the applications of fiber-optic sensors to cementitious composites
URI https://dx.doi.org/10.1016/S0958-9465(96)00038-8
https://www.proquest.com/docview/27376348
Volume 19
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