High-reduction radial shear rolling of aluminum alloy bars using custom-calibrated rolls

IF 2.6 3区 材料科学 Q2 ENGINEERING, MANUFACTURING
Yu V. Gamin, S. P. Galkin, A. N. Koshmin, A. Mahmoud Alhaj Ali, X. D. Nguyen, I. S. ELDeeb
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Abstract

The article presents a novel technique for performing high reduction radial shear rolling (HRRSR) of aluminum alloy bars. For this purpose, rolls with a special calibration were developed, including a high reduction section and a roll feed angle of 20°. The proposed process was investigated using FEM simulation, first. The temperature, stress-strain state, and force parameters analysis showed that the proposed method can produce defect-free bars with a natural gradient microstructure. Afterward, the experimental alloy Al-3Ca-2La-1Mn (wt%), was processed by a single-pass HRRSR process, resulting in a bar with an elongation ratio of 5. High compression and shear strains provide severe deformation of the initial cast microstructure and form a uniform distribution of small eutectic inclusions of the Al4(Ca, La) phase in the aluminum matrix. The obtained results, indicate the possibility of severe deformation of aluminum alloys using the radial shear rolling method. The proposed method of deformation can be the basis for an effective technology for obtaining bulk, long-length bars from various aluminum alloys, with a high reduction in a single pass.

Abstract Image

使用定制校准的轧辊对铝合金棒材进行高减径径向剪切轧制
本文介绍了一种铝合金棒材高压下率径向剪切轧制新工艺。为此,开发了具有特殊校准的轧辊,包括高减速部分和轧辊进给角为20°。首先采用有限元模拟方法对该工艺进行了研究。温度、应力-应变状态和受力参数分析表明,该方法可以制备出具有自然梯度组织的无缺陷棒材。然后,对实验合金Al-3Ca-2La-1Mn (wt%)进行单道HRRSR处理,得到伸长率为5的棒材。高压缩应变和剪切应变使铸态组织发生严重变形,并在铝基体中形成均匀分布的Al4(Ca, La)相小共晶夹杂体。结果表明,径向剪切轧制法可以使铝合金发生严重变形。所提出的变形方法可以成为一种有效技术的基础,用于从各种铝合金中获得大块,长棒材,在单道次中具有高还原率。
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来源期刊
International Journal of Material Forming
International Journal of Material Forming ENGINEERING, MANUFACTURING-MATERIALS SCIENCE, MULTIDISCIPLINARY
CiteScore
5.10
自引率
4.20%
发文量
76
审稿时长
>12 weeks
期刊介绍: The Journal publishes and disseminates original research in the field of material forming. The research should constitute major achievements in the understanding, modeling or simulation of material forming processes. In this respect ‘forming’ implies a deliberate deformation of material. The journal establishes a platform of communication between engineers and scientists, covering all forming processes, including sheet forming, bulk forming, powder forming, forming in near-melt conditions (injection moulding, thixoforming, film blowing etc.), micro-forming, hydro-forming, thermo-forming, incremental forming etc. Other manufacturing technologies like machining and cutting can be included if the focus of the work is on plastic deformations. All materials (metals, ceramics, polymers, composites, glass, wood, fibre reinforced materials, materials in food processing, biomaterials, nano-materials, shape memory alloys etc.) and approaches (micro-macro modelling, thermo-mechanical modelling, numerical simulation including new and advanced numerical strategies, experimental analysis, inverse analysis, model identification, optimization, design and control of forming tools and machines, wear and friction, mechanical behavior and formability of materials etc.) are concerned.
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