等离子体
材料科学
电阻率和电导率
合金
冲击波
导电体
沉积(地质)
纳米材料
复合材料
机械
纳米技术
电气工程
物理
工程类
古生物学
生物
量子力学
沉积物
作者
Ruoyu Han,Chen Li,Wei Yuan,Jiting Ouyang,Jiawei Wu,Yanan Wang,Weidong Ding,Yongmin Zhang
出处
期刊:High voltage
[Institution of Engineering and Technology]
日期:2022-01-13
卷期号:7 (1): 117-136
被引量:31
摘要
Besides a typical high-density plasma source, electrical explosion of conductors is also indispensable in switches, nanomaterial synthesis, shock-wave sources, etc. In this paper, an experimental study regarding plasma dynamics of electrical wire explosions (μs-timescale) is presented, with spatiotemporal resolved diagnostics. Pure Cu/Ni wire and Cu-Ni alloy wire were used and compared. The alloy wire usually has a higher resistivity, resulting in a higher initial energy deposition (heating) rate. Abel inverse transformation indicated that the plasma radiation focussed on the outer region of the discharge channel for the alloy wire. In addition, the metallic vapour determined by the material properties had a considerable influence on the plasma process and resulting nanomaterials. In particular, both transverse and axial-layered structures were observed in alloy wire vapour. In addition, for the first time, the expanding arc-like plasma of explosion products was understood and examined from aspects of material properties and energy relaxation. The later stage of wire explosion resembled the state of regular metal vapour arcs under 1 MPa pressure. Finally, the core factor for the fast energy deposition stage of wire explosion was ascertained. Correlations between pre-exposition circuit parameters and post-explosion dynamic effects were found, which is significant for practical applications.
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