Experimental Investigation of Wave Propagation Characteristics in Entangled Metallic Wire Materials by Acoustic Emission

Abstract: In this paper, the response characteristics of wave propagation in entangled metallic wire materials (EMWMs) are investigated by acoustic emission. The frequency, amplitude of wave emission, and the pre-compression force of the specimen can be adjusted in the experimental setup. EMWM specimens fabricated from stainless steel wires and with different design parameters are tested in this work. The results show that waves of different amplitudes propagate in EMWMs with approximate linear characteristics and the f… Show more

“…With its notable advantages such as high and low-temperature resistance, corrosion resistance, radiation resistance, and the ability to tailor its mechanical properties through process parameters, EMWM offers a broader range of engineering applications compared to traditional rubber materials [10,11]. For instance, researchers have successfully utilized EMWM in areas such as vibration isolation and damping [2,12,13], energy absorption [14][15][16], sound absorption and noise reduction [17,18], and biomedical implants [19,20]. In these applications, EMWM is often employed as a replaceable component that requires periodic replacement [21].…”

Mechanical Property Degradation of Entangled Metallic Wire Materials under Vibration Environment: Experiments and Prediction Models

“…With its notable advantages such as high and low-temperature resistance, corrosion resistance, radiation resistance, and the ability to tailor its mechanical properties through process parameters, EMWM offers a broader range of engineering applications compared to traditional rubber materials [10,11]. For instance, researchers have successfully utilized EMWM in areas such as vibration isolation and damping [2,12,13], energy absorption [14][15][16], sound absorption and noise reduction [17,18], and biomedical implants [19,20]. In these applications, EMWM is often employed as a replaceable component that requires periodic replacement [21].…”

Mechanical Property Degradation of Entangled Metallic Wire Materials under Vibration Environment: Experiments and Prediction Models

Structural optimization design of metal rubber isolator based on an ensemble surrogate model