Research on AZ31 magnesium alloy tee joint tube with lateral hole by hot extrusion forming with sand mandrel limited by stainless steel gasket

Shi Shengnan, Wang Hongyu, Li Yuanyuan, Sun Juncai, Huang Naibao, Sun Jie, Zhang Shunhu
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Abstract

As one of the lightest metals in the world, magnesium alloy can be used to reduce weight and save energy. Magnesium alloy tubes with different shapes can also further direct the transportation of fluid in this light weight. But the tee joint tube is difficult formed because of the complex shapes. In this paper, magnesium alloy tube is applied to form tee joint tube with sand mandrel. During the deformation, the magnesium alloy tube is driven by the sand mandrel pressed by the push. Different from traditional extruding with full tubes without hole on the sidewall, some tube with holes on the sidewalls are also used in the extrusion. All the key parameters such as extrusion depth, temperature, tube length, hole size, and hole location are discussed in both simulations and experiments. After the extrusion results are obtained, the microhardness and microstructures are observed to explain the promotion of the mechanical properties. Based on the results received from both simulations and experiments, deeper extrusion depth, higher temperature, shorter length of tube, larger size of the hole, and the higher location of the hole influence positively on forming results. No matter there are holes or not on the sidewalls, the errors between the results in simulation and experiment are small. Also the simulation and experiment results can be used to investigate the shape of tee joint tubes. The surface quality can be also measured to prove the surfaces in extrusion with sand mandrel acceptable. A novel strategy to sand mandrel extrusion of magnesium alloy tee joint tube by tube with holes on sidewall is provided.
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带侧孔的 AZ31 镁合金三通接头管研究--以不锈钢垫片为限制的砂芯棒热挤压成形
作为世界上最轻的金属之一,镁合金可用于减轻重量和节约能源。不同形状的镁合金管也能在轻质的基础上进一步引导流体的输送。但三通接头管因形状复杂而难以成型。本文将镁合金管应用于用砂芯棒成型三通接头管。在变形过程中,镁合金管在砂芯轴的推动下被挤压。与传统的挤压全管无侧壁孔不同,挤压中也使用了一些侧壁带孔的管材。所有关键参数,如挤压深度、温度、管子长度、孔尺寸和孔位置,都在模拟和实验中进行了讨论。得出挤压结果后,观察微硬度和微观结构,以解释机械性能的提升。根据模拟和实验的结果,挤压深度越深、温度越高、管子长度越短、孔的尺寸越大、孔的位置越高,对成型结果的影响越大。无论侧壁是否有孔,模拟结果与实验结果的误差都很小。模拟和实验结果还可用于研究三通接头管的形状。还可以测量表面质量,以证明使用砂芯棒挤压的表面是合格的。本论文提供了一种新的策略,通过侧壁带孔的管材,用砂芯棒挤压镁合金三通接头管。
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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来源期刊
CiteScore
3.80
自引率
10.00%
发文量
625
审稿时长
4.3 months
期刊介绍: The Journal of Mechanical Engineering Science advances the understanding of both the fundamentals of engineering science and its application to the solution of challenges and problems in engineering.
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