直线电机高速冲击剪切柔性试验台的设计、数值与实验研究

IF 3.3 Q2 ENGINEERING, MANUFACTURING

Journal of Manufacturing and Materials Processing Pub Date : 2023-09-26 DOI:10.3390/jmmp7050173

Pascal Krutz, André Leonhardt, Alexander Graf, Sven Winter, Elmar Galiev, Matthias Rehm, Verena Kräusel, Martin Dix

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引用次数: 0

摘要

考虑到使用高强度钢来实现轻量化的结构目标，传统的剪切工艺已经达到了极限。因此，采用所谓的高速冲击切削(HSIC)来达到所需的切削表面质量。提出了一种由直线电机和冲击质量组成的新机器概念来研究HSIC。它可以灵活地调整和测量所有相关参数。介绍了试验台架的设计和结构，以及碰撞质量耦合机理。为了验证理论确定的加工速度，用高速摄像机记录了切削过程，并在轻度深冲钢板上进行了HSIC。发现可以产生非常好的切削刃，其硬化深度明显低于缓慢切削的参考样品。此外，在LS-DYNA中对HSIC进行了数值模拟，并将计算的切削刃与实际切削刃进行了比较。采用自适应网格划分方法，可以很好地实现切边的一致性。结果表明，直线电机在高性能碳化硅中的应用具有很大的潜力。

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Design, Numerical and Experimental Testing of a Flexible Test Bench for High-Speed Impact Shear-Cutting with Linear Motors

Given the use of high-strength steels to achieve lightweight construction goals, conventional shear-cutting processes are reaching their limits. Therefore, so-called high-speed impact cutting (HSIC) is used to achieve the required cut surface qualities. A new machine concept consisting of linear motors and an impact mass is presented to investigate HSIC. It allows all relevant parameters to be flexibly adjusted and measured. The design and construction of the test bench, as well as the mechanism for coupling the impact mass, are described. To validate the theoretically determined process speeds, the cutting process was recorded with high-speed cameras, and HSIC with a mild deep-drawing steel sheet was performed. It was discovered that very good cutting edges could be produced, which showed a significantly lower hardening depth than slowly cut reference samples. In addition, HSIC was numerically modelled in LS-DYNA, and the calculated cutting edges were compared with the real ones. With the help of adaptive meshing, a very good agreement for the cutting edges could be achieved. The results show the great potential of using a linear motor in HSIC.

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