Fatigue crack analysis of ferrite material by acoustic emission technique

Khan, Md. Imran; Rashid, Arif Abdullah; Hidaka, Ryota; Hattori, Nobusuke; Islam, Md. Mainul

doi:10.15282/jmes.13.2.2019.21.0418

Cited by 3 publications

(1 citation statement)

References 19 publications

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“…Among the convenient non-destructing methods, the acoustic emission (AE) technique is universally used and proved effective for the damage detection and evaluation. 1,2 The change of stress in a body creates initial deformation. The deformation is transformed into strain energy which transmits in the form of elastic transient wave within a body.…”

Section: Introductionmentioning

confidence: 99%

Modeling of Acoustic Emission Wave and Its Parametric Characterization Based on Peak Sensor Sensitivity on an Aluminum Block

Rashid¹,

Khan²,

Teramoto³

2023

The International Journal of Acoustics and Vibration

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In this paper an acoustic emission (AE) signal has been generated analytically for a homogenous material with a surface load. For the validation of the AE theory, a simulation for a developed AE wave has been conducted with computational algorithms. Experimental validation for the AE wave generation and propagation have also been performed under similar conditions. Aluminum metal block has been selected as the homogenous propagation medium for both simulation and the experiment. A function generator has been used for the excitation of a burst sine signal on the surface. A piezoelectric AE resonance sensor receives the vertical response due to the vertical load of the function generator. The algorithm of Lamb's solution has been employed in the generation of a simulated AE wave. As the transfer function, the peak sensor sensitivity of the AE sensor (R15alpha) has been incorporated along with the acoustic impedance of the metal surface and sensor. For both detected and simulated AE waves, the signal parametric characterizations have been performed based on the rise time and the maximum amplitude. The attenuation properties of the maximum amplitude and the increase of rise time with the increment of source to sensor distance has been evaluated to validate the proposed method.

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Section: Introductionmentioning

confidence: 99%

Modeling of Acoustic Emission Wave and Its Parametric Characterization Based on Peak Sensor Sensitivity on an Aluminum Block

Rashid¹,

Khan²,

Teramoto³

2023

The International Journal of Acoustics and Vibration

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Failure analysis under tensile loading of a structural material by acoustic emission technique

Rashid

Khan

2021

Proceedings of the 13th Aun/Seed-Net Regional Conference on Materials (Rcm 2020) and the 1st International Conference on Materi

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Quantification of Mesoscale Deformation-Induced Surface Roughness in α-Titanium

Романова

Emelianova

Pisarev

et al. 2023

Metals

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The phenomenon of mesoscale deformation-induced surface roughening in titanium polycrystals is examined experimentally and numerically. The evolution of the surface morphology under uniaxial tension is analyzed in terms of the standard and ad hoc roughness parameters and the fractal dimension. The statistical estimates are compared to the grain-scale stress-strain fields in order to reveal an interrelation between the in-plane plastic strains and out-of-plane surface displacements. A strong correlation with a determination coefficient of 0.99 is revealed between the dimensionless roughness parameter Rd and the corresponding in-plane plastic strain. The standard roughness parameters Ra and RRMS are shown to correlate linearly with the in-plane strains, but only for moderate tensile deformation, which is due to filtering out low-frequency components in the surface profiles. The fractal dimension DF changes with the subsection strains in a sawtooth fashion, with an abrupt drop in the neck region. The descent portions of the DF dependences are supposedly related to the appearance of low-frequency components in the structure of the surface profiles.

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Fatigue crack analysis of ferrite material by acoustic emission technique

Cited by 3 publications

References 19 publications

Modeling of Acoustic Emission Wave and Its Parametric Characterization Based on Peak Sensor Sensitivity on an Aluminum Block

Modeling of Acoustic Emission Wave and Its Parametric Characterization Based on Peak Sensor Sensitivity on an Aluminum Block

Failure analysis under tensile loading of a structural material by acoustic emission technique

Quantification of Mesoscale Deformation-Induced Surface Roughness in α-Titanium

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