Three seismic nondestructive methods used to monitor concrete slab injection tests

--A long term research program to determine the effectiveness of cement grouts injected in concrete dams was initiated by the Institute of Research in Electricity of Hydro-Quebec (IREQ) in 1986. To investigate the effectiveness of the grouts, three nondestructive methods based on seismic wave propag...

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Bibliographic Details
Published in:Pure and Applied Geophysics 1997-12, Vol.150 (3-4), p.605-625
Main Authors: SALEH, K, HASSANI, F. P, GUEVREMONT, P, SADRI, A, LAPOINTE, R, BALLIVY, G, RHAZI, J, KHARRAT, Y
Format: Article
Language:English
Subjects:
Acoustic emission
Applied sciences
Building structure
Buildings. Public works
Cement
Cements
Concrete
Concrete dams
Concrete slabs
Concrete structure
Concretes
Construction (buildings and works)
Crack propagation
Dams and subsidiary installations
Durability. Pathology. Repairing. Maintenance
Exact sciences and technology
Flaw detection
Fracture mechanics
Grout
Hydraulic constructions
Injection
Measurements. Technique of testing
Methods
Repair (reinforcement, strenthening)
Seismic waves
Slabs
Wave propagation
Wave velocity
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Summary:--A long term research program to determine the effectiveness of cement grouts injected in concrete dams was initiated by the Institute of Research in Electricity of Hydro-Quebec (IREQ) in 1986. To investigate the effectiveness of the grouts, three nondestructive methods based on seismic wave propagation were recently applied to various concrete slabs. The Impact-Echo method was used to determine the crack profile before the injection process began in one of the slabs. This method was used successfully and the detected internal crack depths agreed well with crack depths measured on the sides of the concrete slab. Acoustic Emission was used to monitor the penetration of the grout inside the crack. This method also allowed the researchers to determine at which moment, during the injection test, the cement grout mixture needed to be changed. Sonic Tomography was used to produce a tomographic image of the internal seismic wave velocities which traveled through the slab before and after the injection tests. Two different transmitter and receiver arrangements were used to determine the best measurement configuration. This paper illustrates the usefulness of combining various seismic wave based nondestructive methods to obtain a better knowledge of fracture detection and cement grout propagation, which can eventually lead to practical applications on concrete structures and hence on concrete dams.
ISSN:0033-4553
1420-9136
DOI:10.1007/s000240050095