J. Goforth, H. Oona, D. Herrera, R. Meyer, D. Tasker, D. Torres
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引用次数: 0
摘要
MK-IX发生器的设计和性能最初由Fowler和其他人在1989年加利福尼亚州蒙特雷举行的IEEE脉冲功率会议上发表。这是一种多功能发生器,在20世纪80年代和90年代用于许多实验。在此期间,我们为35 nH负载提供了高达30 MA的电流,并常规为Procyon测试提供了21 MA至72 nH的电感存储(16 MJ)。现在,新的研究工作需要这种大小或更大的发电机的输出。我们的第一步是制造发电机,并证明我们可以重现旧的结果。我们已经证明,我们仍然可以像以前一样向发电机提供460 kA (7.2 muH)。我们打算在建立基准性能后对MK-IX进行现代化改造。可浇注炸药已成为发电机电枢的有效驱动器,但这些炸药降低了性能。为了获得同样的输出,我们必须修改发电机的电枢。例如,铝电枢可以帮助补偿爆炸性能,并提高成本和可制造性。计算可以将基线设计与将来使用的更实际的设计进行比较。在本文中,我们提出了建议的变更,优点和缺点,以及我们的基线制造和测试工作的状态。
The design and performance of the MK-IX generator was originally published by Fowler and others in the 1989 IEEE Pulsed Power Conference in Monterey, CA. This was a versatile generator that was used for many experiments during the 1980s and 1990s. During that period, we delivered up to 30 MA current to a 35 nH load, and routinely delivered 21 MA to 72 nH inductive stores (16 MJ) for Procyon tests. New research efforts now need the output of a generator of this size, or larger. Our first step is to fabricate generators and demonstrate that we can reproduce old results. We have shown that we can still deliver 460 kA to the generator (7.2 muH) as before. We intend to modernize the MK-IX after establishing baseline performance. Castable explosives have become an efficient driver for generator armatures, but these explosives have reduced performance. To obtain the same output, we will have to modify the generator armature. For example, an aluminum armature could help compensate for explosive performance, and improve both cost and manufacturability. Calculations can compare the baseline design with more practical ones for future use. In this paper we present proposed changes, the pros and cons, and the status of our baseline fabrication and testing efforts.
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