Relationship between energy deposition and shock wave phenomenon in an underwater electrical wire explosion

An experimental study of pressure waves generated by an exploding copper wire in a water medium is performed. We examined the effects of energy deposited at different stages on the characteristics of the resulting shock waves. In the experiments, a microsecond time-scale pulsed current source was us...

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Bibliographic Details
Published in:Physics of plasmas 2017-09, Vol.24 (9)
Main Authors: Han, Ruoyu, Zhou, Haibin, Wu, Jiawei, Qiu, Aici, Ding, Weidong, Zhang, Yongmin
Format: Article
Language:English
Subjects:
Copper wire
Current sources
Elastic waves
Electric wire
Energy
Exploding wires
Parameters
Peak pressure
Plasma physics
Pulsed current
Separation
Shock waves
Time constant
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Summary:An experimental study of pressure waves generated by an exploding copper wire in a water medium is performed. We examined the effects of energy deposited at different stages on the characteristics of the resulting shock waves. In the experiments, a microsecond time-scale pulsed current source was used to explode a 300-μm-diameter, 4-cm-long copper wire with initial stored energies ranging from 500 to 2700 J. Our experimental results indicated that the peak pressure (4.5–8.1 MPa) and energy (49–287 J) of the shock waves did not follow a simple relationship with any electrical parameters, such as peak voltage or deposited energy. Conversely, the impulse had a quasi-linear relationship with the parameter Π. We also found that the peak pressure was mainly influenced by the energy deposited before separation of the shock wave front and the discharge plasma channel (DPC). The decay time constant of the pressure waveform was affected by the energy injection after the separation. These phenomena clearly demonstrated that the deposited energy influenced the expansion of the DPC and affected the shock wave characteristics.
ISSN:1070-664X
1089-7674
DOI:10.1063/1.4989790