Comparison of Static and Dynamic Mechanical Response of Aluminum 6061 Subjected to Multi-Directional Forging

Materials Science Forum Pub Date : 2024-04-18 DOI:10.4028/p-1ijzjx

Burak Bahat, G. G. Yapici

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Abstract

The present investigation focuses on the implementation of the multi-axial forging process, recognized as a severe plastic deformation (SPD) technique, with the aim of elevating the mechanical features of the widely employed Al 6061 alloy. Specifically utilized in the automotive and aviation industries, this alloy's behavior was meticulously examined through a series of quasi-static and dynamic tests. To achieve this objective, the multi-directional forging (MDF) process was implemented for up to three cycles, involving a total of nine passes, at a raised temperature of 200 °C. Subsequently, the severely deformed material underwent utilizing high strain rate loading for the Split Hopkinson Pressure Bar (SHPB) test system. After MDF, the grain size is refined down to below 11 microns with a starting grain size of 13 microns. This is reflected as increased hardness and yield strength in the quasi-static regime. For SHPB characterization, increased dynamic strength is also observed. However, although the yield strength showed about 60% increase with decent ductility, the maximum dynamic strength increased about 10% after SPD with a relatively brittle behavior.

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多向锻造铝 6061 的静态和动态机械响应比较

多轴锻造工艺被认为是一种严重塑性变形（SPD）技术，本研究的重点是多轴锻造工艺的实施，目的是提高广泛使用的铝 6061 合金的机械性能。这种合金专门用于汽车和航空工业，我们通过一系列准静态和动态试验对其性能进行了细致的研究。为实现这一目标，在 200 °C 的升温条件下采用了多向锻造（MDF）工艺，最多可进行三次循环，共九次。随后，严重变形的材料在分体式霍普金森压力棒（SHPB）测试系统中进行高应变率加载。在中密度纤维板之后，晶粒细化到 11 微米以下，而起始晶粒大小为 13 微米。这反映在准静态条件下硬度和屈服强度的提高上。就 SHPB 特性而言，动态强度也有所提高。不过，虽然屈服强度增加了约 60%，延展性也不错，但 SPD 后的最大动态强度却增加了约 10%，行为相对较脆。

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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Materials Science Forum

CiteScore

1.20

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