阿特拉斯脉冲功率装置的动态摩擦实验

2006 IEEE International Conference on Megagauss Magnetic Field Generation and Related Topics Pub Date : 2006-11-01 DOI:10.1109/MEGAGUSS.2006.4530714

C. Rousculp, J. Hammerberg, D. Oró, G. Rodriguez, P. Goodwin, M. Salazar, R. Reinovsky, R. Faehl, J. Becker, R. A. Berglin, K. W. Delzer, G. Gomez, R. Malone, D. Morgan, T. Pate, K. E. Theuer

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引用次数: 1

摘要

在阿特拉斯脉冲功率装置上进行了一系列的动态摩擦实验。超过21mamps的脉冲电流在大约15秒内被输送到圆柱形尾管。尾管被加速到千米/秒的速度，对称地撞击一个中空的Ta/Al/Ta靶。由于Ta和Al的激波速度不同，在Ta/Al界面处实现了接近1 km/s的滑动速度。初步分析表明，这台机器的性能在设计规格的百分之几以内。这些实验的主要诊断方法是通过三条射线透视线来观察嵌入在目标人工智能片中的细金线。位移的大小和金属丝在材料界面附近的变形量被用来衡量那里发生的动态摩擦力。其他诊断包括单点VISAR和line-ORVIS，以测量靶体内的破裂时间和速度。此外，通过位于实验功率流通道的光纤环形环路的激光束的法拉第旋转用于测量传递给实验负载的总电流。数据正在与高滑动速度的理论动态摩擦模型进行比较。该模型基于分子动力学模拟，并预测了在非常高的滑动速度下摩擦力的逆幂律依赖关系。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Dynamic Friction Experiments at the Atlas Pulsed Power Facility

A Series of dynamic friction experiments has been conducted at the Atlas Pulsed Power Facility. Pulsed currents in excess of 21 MAmps were delivered to a cylindrical liner in about 15 ¿s. The liner was accelerated to km/s velocities and symmetrically impacted a hollow Ta/Al/Ta target. Due to the shock speed difference in Ta and Al, sliding velocities of almost a km/s were achieved at the Ta/Al interfaces. Initial analysis indicates that the machine performed to within a few percent of the design specifications. The primary diagnostic for these experiments was three radiographic lines-of-sight to look at thin gold wires embedded within the Al piece of the target. The magnitude of the displacement and the amount of distortion of the wires near the material interface is used as a measure of the dynamic frictional forces occurring there. Other diagnostics included a single-point VISAR and line-ORVIS to measure the breakout time and velocity on the inside of the target. Also, the Faraday rotation of a laser beam through a circular loop of optical fiber located in the power-flow channel of the experiment is used to measure the total current delivered to the experimental load. Data are being compared to a theoretical dynamic friction model for high sliding velocities. The model is based on molecular dynamics simulations and predicts an inverse power law dependence of frictional forces at very high sliding velocities.

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来源期刊

2006 IEEE International Conference on Megagauss Magnetic Field Generation and Related Topics

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