Damage evolution and fracture events sequence in various composites by acoustic emission technique

Bussiba, A.; Kupiec, M.; Ifergane, S.; Piat, Romana; Böhlke, Thomas

doi:10.1016/j.compscitech.2007.08.032

Cited by 61 publications

(57 citation statements)

References 18 publications

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“…The damage in composite materials has been investigated by several techniques as acoustic emission [9], electrical resistance [10][11][12] and flash thermography [13]. These studies are aimed to assess the structural integrity of the material by mapping the properties of the surface as in C-scan inspection, but none has been applied to dissimilar mechanical joints.…”

Section: The Methodology Conceptmentioning

confidence: 99%

New method employing the electrical impedance for monitoring mechanical damage evolution in glass-reinforced: Applications to riveted joints

et al. 2012

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Section: The Methodology Conceptmentioning

confidence: 99%

New method employing the electrical impedance for monitoring mechanical damage evolution in glass-reinforced: Applications to riveted joints

et al. 2012

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“…We get frequency information from FFT, whereas STFFT is used to window the dominant frequency region in the FFT and converts the frequency into time domain. Hence STFFT is a useful tool to compare different failure modes with respect to duration and magnitude [26]. Variation of a waveform's frequency content at any particular point or time information of the waveform can be understood by this technique [21].…”

Section: Introductionmentioning

confidence: 99%

Effect of Hydrolytic Ageing on Kevlar/Polyester Using Acoustic Emission Monitoring

et al. 2012

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When composite materials are exposed to seawater it undergoes various processes of degradation such as matrix cracking, fiber breakage, delamination and interfacial debonding, resulting in the reduction in load carrying capacity. To improve the strength characteristics, Kevlar fibers are used in Marine applications. But Kevlar is prone to lot of moisture absorption and its adhesiveness towards the resin is also very much less. When exposed to seawater, the most noticeable effect is the plasticization of the matrix. This research attempts to investigate the reduction in flexural strength of ASTM D790 Kevlar/polyester specimens by 3 point bending test with AE monitoring using an INSTRON 3367 UTM, which are conditioned in seawater at non-laboratory conditions following ASTM-D5229 standard over different time intervals. The change in magnitude of AE parameters are correlated with the mechanical strength of Kevlar/polyester samples. Since Kevlar offers little resistance to Delamination, the focus of the study is being restricted to the failure modes such as debonding and Delamination.The range of Peak frequencies for various hydrolytically aged states for Kevlar samples are investigated using FFT analysis. Hits chosen randomly from each range of peak frequencies pertaining to each failure mode for various hydrolytically aged specimens are investigated using STFFT analysis.

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“…[18][19][20] AE is a kind of emission stress wave in a solid material. The AE has been generally used in engineering applications for internal defects, [21,22] crack initiation, [23,24] fatigue life, [25,26] fracture location, [27,28] evaluation of the failure mechanisms, and process and damage characterization. [29,30] In this paper, three V-notches specimens with different relative depth ratio a/h and relative distance ratio a/(a þ c) are characterized by the AE under in situ three-point bending (TPB) tests.…”

Section: Introductionmentioning

confidence: 99%

Failure Mechanism of Brass with Three V‐Notches Characterized by Acoustic Emission in In Situ Three‐Point Bending Tests

et al. 2016

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The purpose of this study is to characterize the V pre-notched specimens with different relative depth ratio and the relative distance ratio by the AE signals in in situ three-point bending tests. Simultaneously, during the bending process, the V pre-notched specimen is in situ monitored by the opto-digital microscope. In order to analyze the depth of V-notch and the distance between the side V-notches and the middle V-notch effect on the specimens, a finite element analysis model is built by ABAQUS. Combining the in situ images, the AE signals and the finite element analysis (FEA) results, it is found that the experiment results are consistent with the FEA results. It is demonstrated that the amplitude of AE signals can effectively characterize the crack initiation, crack growth, and crack fast instability fracture.

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Damage evolution and fracture events sequence in various composites by acoustic emission technique

Cited by 61 publications

References 18 publications

New method employing the electrical impedance for monitoring mechanical damage evolution in glass-reinforced: Applications to riveted joints

New method employing the electrical impedance for monitoring mechanical damage evolution in glass-reinforced: Applications to riveted joints

Effect of Hydrolytic Ageing on Kevlar/Polyester Using Acoustic Emission Monitoring

Failure Mechanism of Brass with Three V‐Notches Characterized by Acoustic Emission in In Situ Three‐Point Bending Tests

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