Machinability of SMART Forged Materials in Intermittent Cutting

M. Murata, M. Hino, R. Kuwano, S. Kurokawa
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引用次数: 1

Abstract

The gear shafts used in automotive transmissions are manufactured by forging high-toughness structural steels such as chrome steel or chrome-molybdenum steel, heat treating them, and then shaping the gear by cutting. In the conventional manufacturing process, there is waste of energy and work time because the forging and heat treatment processes for imparting machinability are separate. We present a new forging process that successfully imparts machinability by controlling the cooling time after forging. This research investigated the cutting machinability properties of materials made by the new SMART forging process. Mainly, as the result of investigating under the intermittent cutting about the progress of the tool wear, very good results could be obtained.
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SMART锻造材料在间歇切削中的可加工性
汽车变速器中使用的齿轮轴是通过锻造高韧性结构钢(如铬钢或铬钼钢),对其进行热处理,然后通过切削成形的方式制造的。在传统的制造工艺中,由于赋予可加工性的锻造和热处理工艺是分开的,造成了能量和工作时间的浪费。提出了一种通过控制锻造后冷却时间来提高可加工性的锻造新工艺。研究了新型SMART锻造工艺制备材料的切削加工性能。主要是通过对断续切削条件下刀具磨损过程的研究,得到了很好的结果。
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