Acoustic emission behavior of steel fibre reinforced concrete under bending

Soulioti, D. V.; Barkoula, N.-M.; Paipetis, Alkiviadis S.; Matikas, Theodore E.; Shiotani, Tomoki; Aggelis, D. G.

doi:10.1016/j.conbuildmat.2009.06.042

Cited by 230 publications

(103 citation statements)

References 22 publications

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“…RA value exhibits an explosive increase when fiber pull-out events result after extensive matrix cracking (Soulioti et al 2009, Aggelis et al 2011a. The same trend has been seen in concrete containing polymer fibers, as studied by the inverse of RA, namely "grade" of the waveform ).…”

Section: Resultssupporting

confidence: 55%

“…2 . This has been shown in a number of studies concerning different kinds of materials like rock (Shiotani 2006), concrete (Ohno and Ohtsu 2010, Soulioti et al 2009, Aggelis et al 2011a, metals (Aggelis et al 2011b) and composite laminates (Aggelis et al 2010b). It originates from the different elastic wave modes (longitudinal and shear) that are emitted from the mode I excitation (opposing movement of the crack faces) and mode II (sliding movement) respectively (Aggelis et al 2010c).…”

Section: Introductionmentioning

confidence: 99%

“…A parameter that has extensively been used for characterization of the fracture mode mostly depends on the shape of the initial part of the waveform. The ratio of A over RT, which is the "rise angle" or "grade" Philippidis 1995, Philippidis et al 1998) of the waveform, is recently utilized in the form of RA value , Ohtsu and Tomoda 2008, Soulioti et al 2009, Aggelis et al 2011a. This value is precisely the inverse of grade (rise time over the Amplitude measured in μs/V) (Ohno and Ohtsu 2010).…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Damage Assessment in Fibrous Composites Using Acoustic Emission

Paipetis¹,

Aggelis²

2012

Acoustic Emission

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Section: Resultssupporting

confidence: 55%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Damage Assessment in Fibrous Composites Using Acoustic Emission

Paipetis¹,

Aggelis²

2012

Acoustic Emission

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“…shifting from flexural cracking to shear/bond cracking, along with an increase in duration and amplitude. In other words, shear events were characterized by a longer rise time and usually higher amplitude than tensile events (Soulioti et al 2009), while average frequency tended to be higher for tensile cracking mode. A comparison of characteristics of AE obtained during direct tension test and during heat curing of the same mix concrete is presented in Fig.…”

Section: Characteristics Of Microcrackingmentioning

confidence: 99%

Detection of Microcracking in Concrete Subjected to Elevated Temperature at Very Early Age by Acoustic Emission

Son

Hosoda

2010

ACT

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Microcracks developed considerably in concrete subjected to elevated temperature up to around 60 o C at early ages, especially in low water-to-binder ratio (0.3) concrete. Microcracking was attributed to the stresses induced by the incompatibility in deformation between mortar and aggregate. Differences of coefficients of thermal expansion (CTE) between mortar and coarse aggregate, autogenous shrinkage of mortar and size of coarse aggregate were important factors influencing deterioration. The tensile strength of concrete was severely affected by the extent of microcracks. Concrete using ground granulated blast furnace slag (GGBFS) suffered worse damage than concrete prepared from ordinary Portland cement alone. Attempts were made to apply the acoustic emission (AE) technique to study the process and mechanism of microcracking. The skills required to practice the AE technique at early ages and at high temperature were carefully considered. AE hits agreed with the test results for deformation and tensile strength. Most of the microcracks occurred within the descending period of temperature and were classified into tensile mode. The use of coarse aggregate with larger CTE, saturated fine lightweight aggregate, and the reduction of the maximum size of the aggregate were greatly effective in reducing microcracking and improving the tensile strength of concrete made with GGBFS. Direct tensile strength was more adversely affected by microcracking than splitting tensile strength.

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“…Acoustic emission (AE) defined by ASTM E1316-05 [10] as "The class of phenomena whereby transient elastic waves are generated by the rapid release of energy from a localized source or sources within a material". The main aim of AE application for this research is to determine experimentally a characteristic set (fingerprints) of AE features that can potentially describe the size of circular pocket damage in composite and aluminium plate which has been correlated to finite element models.…”

Section: A Acoustic Emissionmentioning

confidence: 99%