Hysteretic nonlinearity analysis in damaged composite plates using guided waves

Baccouche, Yousra; Bentahar, Mourad; Mechri, Charfeddine; Guerjouma, Rachid El; Ghozlen, Mohamed Hédi Ben

doi:10.1121/1.4793584

Cited by 17 publications

(14 citation statements)

References 9 publications

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“…Following this, several researchers have used NEWS techniques to detect and quantify damage in composites and other materials. [10][11][12][13][14][15][16][17][18][19] Van Den Abeele demonstrated the use of NEWS techniques for detecting damage in fiber cemented plates. The hysteresis behavior along with non-classical nonlinear indicators were summarized.…”

Section: Introductionmentioning

confidence: 99%

Influence of fiber orientation on the inherent acoustic nonlinearity in carbon fiber reinforced composites

Chakrapani¹,

Barnard²,

Dayal

2015

The Journal of the Acoustical Society of America

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This paper presents the study of non-classical nonlinear response of fiber-reinforced composites. Nonlinear elastic wave methods such as nonlinear resonant ultrasound spectroscopy (NRUS) and nonlinear wave modulation spectroscopy have been used earlier to detect damages in several materials. It was observed that applying these techniques to composites materials becomes difficult due to the significant inherent baseline nonlinearity. Understanding the non-classical nonlinear nature of the composites plays a vital role in implementing nonlinear acoustic techniques for material characterization as well as qualitative nondestructive testing of composites. Since fiber reinforced composites are orthotropic in nature, the baseline response variation with fiber orientation is very important. This work explores the nature of the inherent nonlinearity by performing nonlinear resonant spectroscopy (NRS) in intact unidirectional carbon/epoxy samples with different fiber orientations with respect to major axis of the sample. Factors such as frequency shifts, modal damping ratio, and higher harmonics were analyzed to explore the non-classical nonlinear nature of these materials. Conclusions were drawn based on the experimental observations.

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Section: Introductionmentioning

confidence: 99%

Influence of fiber orientation on the inherent acoustic nonlinearity in carbon fiber reinforced composites

Chakrapani¹,

Barnard²,

Dayal

2015

The Journal of the Acoustical Society of America

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“…The lowest order nonlinearity which is currently under the consideration for flexural motion in homogeneous materials is classical cubic elastic nonlinearity (of odd-type in its symmetry and cubic in its dependence on the wave amplitude) [39][40][41]. The theories of flexural waves, which include the classical elastic nonlinearities only, could be not relevant for the flexural waves propagation in micro-inhomogeneous plates where other types of nonlinearities, i.e., nonclassical nonlinearities, could dominate [28,31]. Of particular importance could be the so-called hysteretic quadratic nonlinearity (HQNL) of odd-type in its symmetry and quadratic in its dependence on the wave amplitude [29,32,37,42], which is a paradigmatic example, even though the nonlinear absorption and dispersion mechanism by hysteretic micromechanical units is generic.…”

Section: Introductionmentioning

confidence: 97%

“…These materials are also called mesoscopic [30,31] from the acoustic point of view, when they are tested by the acoustic waves which are significantly exceeding in length the dimensions of the mechanical elements responsible for their inhomogeneity. It is well documented in the literature that the nonlinear absorption can dominate over the linear one in the acoustic resonance experiments, i.e., in standing waves [23,25,26,28,32,33], causing the increase in the width of the resonance significantly beyond the linear resonance width. However, important nonlinear absorption was also revealed in the travelling acoustic waves both in the microstructured and nanostructured materials [21,22,27,34,35].…”

Section: Introductionmentioning

confidence: 98%

“…However the question on a possible role of the nonlinear acoustic absorption in the black hole phenomena has not been studied yet to our knowledge. There are multiple classic [15][16][17][18] and modern [19][20][21][22][23][24][25][26][27][28] studies of the nonlinear acoustic absorption (nonlinear ''internal friction'' in classical terminology) in various kind of micro-inhomogeneous [20,26,29] materials, where the important role in the mechanical motion is played by dislocations, grain boundaries, inter-grain contacts, cracks, etc., i.e., by the mechanical elements that are significantly larger in dimensions than interatomic distances in the sample but, at the same time, are significantly smaller than the sample dimensions. These materials are also called mesoscopic [30,31] from the acoustic point of view, when they are tested by the acoustic waves which are significantly exceeding in length the dimensions of the mechanical elements responsible for their inhomogeneity.…”

Section: Introductionmentioning

confidence: 99%

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Propagation of flexural waves in inhomogeneous plates exhibiting hysteretic nonlinearity: Nonlinear acoustic black holes

Gusev

Lomonosov

et al. 2015

Ultrasonics

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“…They called this class of materials as mesoscopic materials where the elastic behavior was controlled by mesoscopic elements along the grain boundary. Following this, several researchers have used NEWS techniques to detect and quantify damage in composites and other materials [10][11][12][13][14][15][16][17][18][19]. Van Den Abeele demonstrated the use of NEWS techniques for detecting damage in fiber cemented plates.…”

Section: Introductionmentioning

confidence: 99%