M. Schneider, O. Liebfried, V. Stankevič, S. Balevičius, N. Žurauskienė
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引用次数: 0
Abstract
Magnetic diffusion is of great importance in the domain of electromechanical energy conversion since it can be a performance-limiting mechanism. This paper deals with magnetic diffusion in the case of the rails of a railgun. The experiments benefit from the use of a new type of high magnetic field sensor based on thin (<1 mum) manganite films, which exhibits the colossal magnetoresistance (CMR) effect and has very small sensitive areas (e. g., 0.5 mm x 50 mum). Some basics about CMR and the design of the sensor are given. Several sensors were used and calibrated in the course of static transient railgun experiments. Here, varying spatial field distributions due to the use of different rail materials were recorded. Magnetic field measurements during railgun operation with projectile velocities exceeding 1000 m/s have been successfully performed. By comparison with 3D FE-calculations interesting results concerning magnetic diffusion have been worked out.
磁扩散在机电能量转换领域具有重要意义,因为它可能是一种性能限制机制。本文研究了轨道炮导轨的磁扩散问题。实验得益于使用了一种新型的高磁场传感器,这种传感器基于薄(<1 μ m)的锰酸盐薄膜,它具有巨大的磁阻(CMR)效应,并且具有非常小的敏感区域(例如0.5 mm x 50 μ m)。介绍了CMR的基本原理和传感器的设计。在静态瞬态轨道炮实验过程中,使用了几种传感器并进行了标定。在这里,由于使用不同的轨道材料,记录了不同的空间场分布。在弹丸速度超过1000 m/s的轨道炮运行过程中,成功地进行了磁场测量。通过与三维有限元计算的比较,得出了有关磁扩散的有趣结果。
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