A Practical Analysis of Wire Drawing Operation Effects on the Die and Product Behaviors

Wisam Imad Imad Adnan, Mohammed Ali Nasser, Haidar Akram Hussein
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Abstract

This study analyse the effects of different wire drawing experimental tests on the die and product properties. Drawing load, temperature, and wear rate are main die factors, that concerned with the interaction effects of drawing speed variation, wire angle alignment and lubrication. For the product, two factors; tensile strength and hardness are taken. A copper wire is drawing from (4.3 mm) into (3.5 mm) diameter with an area reduction of 1.65, 34% ratio.Six dies were employed in various alignments at three different angles (0°, 1°, and 2°), each has two different drawing speeds of (20 mm/min and 40 mm/min). Results show, the highest drawing load and temperature values in die no.5. The effect of using grease on the die wear rate found that the die wear decreases compared to without. But, when using mixed gradients under the same working conditions, the wear rate changed into coating layer on the die surface. The interaction effect of wire alignment on the product strength showing very small when dealing with low or higher speed, but elongation and ductility are significantly reduced with increasing the angle. The wire produced from die no.1, gives the highest micro hardness.
拉丝操作对模具和产品性能影响的实用分析
本研究分析了不同拉丝实验测试对模具和产品性能的影响。拉拔负荷、温度和磨损率是主要的模具因素,与拉拔速度变化、线材角度对齐和润滑的交互影响有关。对于产品,则考虑了抗拉强度和硬度两个因素。铜线从直径(4.3 毫米)拉拔到直径(3.5 毫米),面积减少了 1.65%,比率为 34%。六个模具以三种不同的角度(0°、1° 和 2°)排列,每个模具有两种不同的拉拔速度(20 毫米/分钟和 40 毫米/分钟)。结果显示,5 号模具的拉伸载荷和温度值最高。使用润滑脂对模具磨损率的影响表明,与不使用润滑脂相比,模具磨损有所减少。但是,在相同的工作条件下使用混合梯度时,磨损率变为模具表面的涂层。在低速或高速条件下,线材排列对产品强度的交互影响很小,但随着角度的增加,伸长率和延展性明显降低。1 号模具生产的线材具有最高的显微硬度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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