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Temporal‐frequency distribution and multi‐fractal characterization of acoustic emission of rock materials containing two parallel pre‐existing flaws

Ruide Lei, Yunliang Tan, Filippo Berto, Chao Hu, Xing Qi

2023Fatigue & Fracture of Engineering Materials & Structures23 citationsDOI

Abstract

Abstract To explore the temporal‐frequency distribution and multi‐fractal characterization of acoustic emission (AE) signals, a series of uniaxial compressive tests on flawed sandstone containing different flaw geometric arrangements were conducted. The results show that there are primarily low‐frequency and low‐amplitude signals at relatively low stress levels. With the increase of stress level, the components of high‐frequency and high‐amplitude signals increase remarkably. Spectrum width (∆ α ) follows an approximate trend of first decreasing and then increasing with increasing stress levels. When the stress level increases to 0.8 σ c , spectrum morphology (∆ α 0 ) changes from a positive value to a negative value, indicating that the failure mechanism in rock transforms from microcrack damage to large‐scale shear rupture. Additionally, spectrum measure subset (∆ f ) and ∆ α 0 present an opposite trend. With regard to the flawed sandstone, the fracture mechanism is predominately dominated by the microscopic tensile cracks, whereas the microscopic shear cracks in intact sandstone account for a large proportion.

Topics & Concepts

Acoustic emissionFractalAmplitudeCharacterization (materials science)Materials scienceUltimate tensile strengthShear (geology)Stress (linguistics)Fracture (geology)Frequency spectrumLow frequencyComposite materialFractal dimensionSpectral densityMathematicsPhysicsOpticsMathematical analysisStatisticsNanotechnologyPhilosophyAstronomyLinguisticsRock Mechanics and ModelingGeophysical Methods and ApplicationsLandslides and related hazards
Temporal‐frequency distribution and multi‐fractal characterization of acoustic emission of rock materials containing two parallel pre‐existing flaws | Litcius