Modeling the complexity of acoustic emission during intermittent plastic deformation: Power laws and multifractal spectra

Kumar, Jagdish; Ananthakrishna, G.

doi:10.1103/physreve.97.012201

Cited by 7 publications

(5 citation statements)

References 57 publications

(219 reference statements)

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“…Only scale-free statistics was found on the mesoscopic scale relevant to acoustic emission (AE) accompanying plastic deformation in the conditions of the PLC effect [11][12][13]. This persistence of avalanche-like behavior qualitatively agrees with the predictions of the dynamical model [14][15][16] developing a unique framework to explain both the PLC serrations and the concomitant AE. Moreover, such a scale invariance was observed for numerous materials in the absence of the PLC effect [17][18], albeit the PLC effect displays a larger range of experimental values of the power-law exponent.…”

supporting

confidence: 71%

Crossover in the scale-free statistics of acoustic emission associated with the Portevin-Le Chatelier instability

et al. 2018

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The acoustic emission accompanying plastic deformation obeys scale-free statistics reflecting avalanche-like dislocation motion. This feature holds out for the macroscopically unstable deformation of alloys. However, stress serrations display peaked distributions at low enough strain rates. This occurrence of a characteristic macroscopic scale was supposed to result from the synchronization of dislocation avalanches. In the present work, the synchronization mechanism is studied using statistical analysis of different subsets of acoustic events. A crossover in the power-law exponents is detected for the events occurring during deep stress drops. It is described to a transition from chaining to overlapping dislocation avalanches.

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supporting

confidence: 71%

Crossover in the scale-free statistics of acoustic emission associated with the Portevin-Le Chatelier instability

et al. 2018

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“…The distribution function of time intervals is used as an indicator of the destruction process by a few authors [35]. The correspondence of the function of time intervals to the exponential distribution in [36], as well as in this paper, is a sign of scattered accumulation.…”

Section: Discussionsupporting

confidence: 53%

Features of Acoustic Emission in Tensile Testing of Dissimilar Welded Joints of Pearlitic and Austenitic Steels

et al. 2021

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This paper presents a study of acoustic emission (AE) during the deformation of dissimilar welded joints of austenitic steel to pearlitic steel. One of the specific problems in these welded joints is the presence of decarburized and carbide diffusion interlayers, which intensively increase in width during long-term high-temperature operation. The presence of wide interlayers negatively affects the mechanical properties of welded joints. Moreover, welded defects are difficult to diagnose in welded joints containing interlayers: due to the high structural heterogeneity, interlayers create structural noises that can hinder the detection of defects such as cracks, pores, or a lack of penetration. The AE method may become a complex decision for diagnosing dissimilar welded joints due to applicability to the testing of heterogenic materials with a complex microstructure. Specimens cut from dissimilar welded joints of austenitic steel to pearlitic steel were tested by tension to rupture, with parallel AE data registration. According to the research results, the characteristic features of the AE were revealed for specimens containing defects in the form of lack of penetration as well as for specimens with diffusion interlayers. The results obtained show that the AE method can be used to test both typical welding defects and diffusion interlayers in welded joints of steels of different structural classes.

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“…The suggested composite nature of the measured AE signal makes the quantitative analysis of its source quite sophisticated. A possible way to predict the AE in this case may be a physically based numerical modeling like that implemented for the PLC effect [40,59]. Nevertheless, taking into account the mechanism of the occurrence of stress drops which represent the elastic response of the machine-specimen system to the strain bursts, it may be noted that the proportionality observed between the amplitudes of the AE and stress drop rate signals (Fig.…”

Section: Discussionmentioning

confidence: 99%

Dynamics of deformation band formation investigated by high-speed techniques during creep in an AlMg alloy

Shibkov

Zheltov

Gasanov

et al. 2020

Materials Science and Engineering: A

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Dynamics of the deformation band formation during creep in an Al-Mg alloy was investigated by simultaneous high-speed video recording of deformation bands with an extremely high time resolution of 40 µs and measurement of the concomitant acoustic emission. The results are consistent with the mechanism where the trigger of a strain step on the creep curve is the nucleation and rapid widening of a primary deformation band, generating an acoustic emission signal within one millisecond. Correlations between various stages of the deformation band formation, acoustic emission, and stress response are explored in detail. Notably, the stress drop rate and the amplitude of the acoustic emission signal are found to be linearly related. The mechanism of the acoustic emission associated with the initial rapid stage of the band development is discussed.

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Modeling the complexity of acoustic emission during intermittent plastic deformation: Power laws and multifractal spectra

Cited by 7 publications

References 57 publications

Crossover in the scale-free statistics of acoustic emission associated with the Portevin-Le Chatelier instability

Crossover in the scale-free statistics of acoustic emission associated with the Portevin-Le Chatelier instability

Features of Acoustic Emission in Tensile Testing of Dissimilar Welded Joints of Pearlitic and Austenitic Steels

Dynamics of deformation band formation investigated by high-speed techniques during creep in an AlMg alloy

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