Quantitative evaluation and visualization of cracking process in reinforced concrete by a moment tensor analysis of acoustic emission

Yuyama, Shigenori; Okamoto, Takahisa; Shigeishi, Mitsuhiro; Ohtsu, Masayasu

Title: Quantitative evaluation and visualization of cracking process in reinforced concrete by a moment tensor analysis of acoustic emission

Journal Article · Thu Jun 01 00:00:00 EDT 1995 · Materials Evaluation

OSTI ID:87372

Yuyama, Shigenori ^[1]; Okamoto, Takahisa; Shigeishi, Mitsuhiro; Ohtsu, Masayasu ^[2]

Nippon Physical Acoustics Ltd., Tokyo (Japan)
Kumamoto Univ. (Japan)

Fracture tests are conducted on two types of reinforced concrete specimens under cyclic loadings. Cracking process is quantitatively evaluated and visualized by applying a moment tensor analysis to the AE waveforms detected during the fracture. First, bending tests are performed on reinforced concrete beams. It is found that both tensile and shear cracks are generated around the reinforcement in the low loading stages. However, shear cracks become dominant as the cracking process progresses. In the final stages, shear cracks are generated near the interface between the reinforcement and concrete even during unloadings. A bond strength test, made second, shows that tensile cracks are produced around the reinforcement in the early stages. They spread apart from the reinforcement to wider areas in the later stages. An intense AE cluster due to shear cracks is observed along the interface between the reinforcement and concrete. The previous result from an engineering structure is also presented for comparison. All these results demonstrate a great promise of the analysis for quantitative evaluation and visualization of the cracking process in reinforced concrete. The relationship between the opening width of surface cracks and the Kaiser effect is intensively studied. It is shown that a breakdown of the Kaiser effect and high AE activities during unloading can be effective indices to estimate the level of deterioration in concrete structures.

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OSTI ID:: 87372

Journal Information:: Materials Evaluation, Vol. 53, Issue 6; Other Information: PBD: Jun 1995

Country of Publication:: United States

Language:: English

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36 MATERIALS SCIENCE
REINFORCED CONCRETE
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FRACTURE PROPERTIES
ACOUSTIC EMISSION TESTING
CRACKS
NONDESTRUCTIVE TESTING
PARAMETRIC ANALYSIS
WAVE FORMS
MOMENTS METHOD
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Title: Quantitative evaluation and visualization of cracking process in reinforced concrete by a moment tensor analysis of acoustic emission

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