Analysis of the influence of dies geometry on the process extrusion force and properties of the extrudate obtained in the process of cold extrusion of 7075 aluminum alloy by the KOBO method

IF 1.3 4区 材料科学 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY
Marek Zwolak, Romana Śliwa
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引用次数: 0

Abstract

The KOBO extrusion process is an unconventional method of extrusion based on the phenomenon of superplasticity as an effect of a special state caused by the oscillatory motion of the die at a certain angle a certain frequency. It significantly lowers the extrusion force and makes it possible to extrude lightweight metals and alloys (e.g. aluminum and magnesium alloys) in cold extrusion with high extrusion ratios compared to conventional hot extrusion. This work studies the influence of the tool (die) geometry on process realization parameters and the properties of the extrudate. Experimental studies of cold KOBO extrusion were performed using dies with different face portion geometry. The obtained extrudate obtained from EN-AW 7075 aluminum billets was examined for mechanical properties and macro/microstructure, showing that, with adequate modifications to the tool face part geometry, it is possible to lower the extrusion force and obtain extrudate with desired properties.
分析模具几何形状对 KOBO 法冷挤压 7075 铝合金过程中挤出力和挤出物特性的影响
KOBO 挤压工艺是一种基于超塑性现象的非常规挤压方法,这种超塑性现象是模具以一定角度和一定频率振荡运动所产生的特殊状态效应。与传统的热挤压相比,它大大降低了挤出力,并使以高挤出比冷挤压轻质金属和合金(如铝合金和镁合金)成为可能。这项工作研究了工具(模具)几何形状对工艺实现参数和挤出物特性的影响。使用具有不同表面部分几何形状的模具进行了 KOBO 冷挤压实验研究。对从 EN-AW 7075 铝棒中获得的挤压物进行了机械性能和宏观/微观结构检测,结果表明,通过适当修改模具表面部分的几何形状,可以降低挤压力并获得具有所需性能的挤压物。
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来源期刊
Materials Science-Poland
Materials Science-Poland MATERIALS SCIENCE, MULTIDISCIPLINARY-
自引率
18.20%
发文量
18
期刊介绍: Material Sciences-Poland is an interdisciplinary journal devoted to experimental research into results on the relationships between structure, processing, properties, technology, and uses of materials. Original research articles and review can be only submitted.
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