搅拌摩擦固结法回收铝合金切屑

Samuel Kefeyalew Abebe, Desalegn Wogaso Wolla
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引用次数: 0

摘要

采用搅拌摩擦固结法(FSC)从加工废料中制备AA5052铝合金固体圆盘,并对模具转速、预密实长径比、加工时间等参数进行优化。首先,设计和构建所需的专用工具。然后,采用FSC工艺在AA5052铝合金芯片上制备了固体圆盘。采用田口L9正交阵列对工艺进行分析和优化。考虑的实验参数及其水平为转速(315、400和500 rpm)、预压缩长宽比(25.4/7、25.4/5和25.4/3)和处理时间(30、45和60秒)。采用标准试验方法,对固结固体盘的抗压强度、硬度和微观结构进行了评价。结果表明:采用专用模具,采用FSC技术成功制备了固体圆盘,最佳加工条件为转速(500 rpm)、预压长径比(25.4/3)和加工时间(60秒)。实心圆盘的显微组织检查显示,在轴向横截面取向上晶粒更细且完全再结晶。此外,结果表明,实心圆盘的抗压强度和硬度与锻造或铸造圆盘相当,适合大多数工程结构应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Aluminum Alloy Chips Recycling using Friction Stir Consolidation
The purpose of this paper is to develop AA5052 aluminum alloy solid disc from machining wastes via friction stir consolidation (FSC) process & optimize its parameters: die rotational speed, pre-compact aspect ratio and processing time. At first, the required dedicated tooling is designed and built. Then, solid discs are fabricated from AA5052 aluminum alloy chips using FSC process. Taguchi L9 orthogonal array is used to analyze and optimize the process. Experimental parameters and their levels considered are rotational speed (315, 400 and 500 rpm), pre-compact aspect ratio (25.4/7, 25.4/5 and 25.4/3) and processing time (30, 45 and 60 sec). Using standard tests, compressive strength, hardness and microstructure of the consolidated solid disc are evaluated. The results reveal that solid discs are successfully fabricated using FSC using dedicated tooling, and rotational speed (500 rpm), pre-compact aspect ratio (25.4/3) and processing time (60 sec) are optimal processing conditions. Microstructure examination of the solid disc shows finer and fully recrystallized grains in axial cross section orientation. Moreover, the results show compressive strength and hardness of the solid disc are comparable to that of forged or cast disc and suitable for most engineering structural applications.
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