G. Păltânea, V. Manescu, H. Gavrilă, I. Peter, D. Popovici
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引用次数: 2
摘要
利用磨料颗粒的水射流技术是一种高效的电工钢切削方法,与传统的冲孔切削相比,具有许多优点。在切割过程中没有任何加热现象,该方法具有高通用性,对工件施加的应力最小。通过水射流切割技术,测试了M400-50A、M400-65A、M700-50A和M700-65A电工钢等级的带钢样品。样品的长度为300mm,宽度设置为30,15,10,7.5和5mm。磁性能测量采用实验室单条测试仪(SST)进行,该测试仪只能表征面积为300 mm × 30 mm的样品。因此,为了重建30mm的标准宽度,将相同宽度的2、3、4、6片并排放置。在10 ~ 100 Hz的频率范围内,对1000 mT的磁量进行了研究。由于在切割过程中,边缘损伤被限制在一个非常窄的宽度内,因此这种类型的非常规切割方法对能量损失的影响相对于切割周长的增加来说很小。
Magnetic property analysis in non-oriented silicon iron steels cut through water jet technology
Water jet technology that uses abrasive particles is an efficient cutting method, for electrical steels and it has many advantages, by comparison with the classical punching. During the cutting process there are not any heating phenomena and the method has a high versatility with a minimum applied stress on the work piece. There were tested strip samples of M400-50A, M400-65A, M700-50A and M700-65A electrical steel grades cut through water jet technology. The samples' length is equal to 300 mm and their width is set to 30, 15, 10, 7.5 and 5 mm. The magnetic property measurements were performed with a laboratory single strip tester (SST), which can characterize only samples with an area of 300 mm × 30 mm. Thus, to reconstruct the standard width of 30 mm, there were put side by side 2, 3, 4 and 6 pieces with the same width. The magnetic quantities were investigated at 1000 mT in the frequency range 10 ÷ 100 Hz. This type of non-conventional cutting method proves to have a low influence on the energy losses with respect to the increase of the cutting perimeter, because during the cutting process the edge damage is limited to a very narrow width.
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