Microstructures and Mechanical Properties of Extruded Al 7050 Billet and Ring Forged One with Large Scale

Power System Engineering Pub Date : 2016-12-31 DOI:10.9726/KSPSE.2016.20.6.040

D. Bae, K. Joo, Jin-Kyung Lee, Sang-Pill Lee, Chang-Beom Chang, Sung-Seop Hong, T. Park

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Abstract

The manufacturing process of large scaled Al 7050 alloy is difficult for the occurrence of solidification crack during casting. The aims of this study are the evaluations of microstructure and mechanical properties of extruded Al 7050 billet and ring forged one with large scale. Large scaled Al 7050 billet was casted by direct-chill casting process. The extruded and ring forged specimens were prepared from the casted ingot after residual stress relief and homogenization heat treatment, respectively. Microstructures, hardness and tensile test of the surface, middle and center part of each specimen were performed at room temperature. Sheared and elongated type grains were observed at the edge parts of surface and center area and its aspect ratios of grains were low and similar as 0.21 while that of middle area was closed to 0.92 value in ring forged Al 7050 alloy. The mechanical properties of extruded Al 7050 alloy were superior than those of ring forged one. The hardness values of surface and center part were slightly higher than that of middle part in ring forged Al 7050 alloy.

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大型挤压Al 7050坯料和环锻坯的组织与力学性能

大型al7050合金在铸造过程中不易产生凝固裂纹。本研究的目的是对大型Al 7050挤压坯料和环锻坯料的组织和力学性能进行评价。采用直接冷铸法铸造了大型Al 7050钢坯。将铸锭分别进行残余应力消除和均匀化热处理，得到挤压试样和环锻试样。在室温下对试样的表面、中间和中心部分进行显微组织、硬度和拉伸试验。环锻Al - 7050合金的表面边缘和中心区域出现了剪切型和拉长型晶粒，其晶粒长径比较低，接近0.21，而中间区域的晶粒长径比接近0.92。挤压al7050合金的力学性能优于环锻al7050合金。环锻Al 7050合金表面和中心部分的硬度值略高于中间部分。

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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Power System Engineering

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