Equal channel angular pressing of wire-formed Al6063 by PU rubber-assisted procedure

IF 1.4 4区 工程技术 Q3 ENGINEERING, MECHANICAL
Mahmoud Ebrahimi, Shokouh Attarilar, H. Özkavak, C. Gode
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引用次数: 2

Abstract

Expanding suitable severe plastic deformation processes seems essential to design lightweight wire-formed materials for emerging demands. In this regard, 6063 aluminum alloy in the form of wire was processed successfully by polyurethane rubber assisted-equal channel angular pressing up to 16 passes by route BC. It was found that significant improvement of hardness and strength is achieved at the initial passes due to the increment of material’s dislocations density which leads to the crystallite size decrease and lattice microstrain increase. Also, subsequent passes improve the mechanical properties with a gentle rate due to the saturation of dislocation strengthening. The fractography analysis indicated that the ductile fracture mode of the annealed aluminum decreases by imposing the ECAP process. It is related to the formation of cleavage and rive patterns and the reduction in the number and size of the dimples compared to the initial condition. Eventually, X-ray diffraction findings showed that by adding pass numbers, the isotropy degree of the aluminum sample enhances because of the lowest diffraction scattering.
用PU橡胶辅助工艺对线形Al6063进行等径角压制
扩展合适的严重塑性变形工艺似乎是设计轻量化线形材料以满足新兴需求的必要条件。在此基础上,采用聚氨酯橡胶辅助等道角压法,通过BC路线加工了16道的6063铝合金线材。结果表明,由于材料位错密度的增加,使得晶粒尺寸减小,晶格微应变增大,在初始道次时硬度和强度得到了显著提高。此外,由于位错强化的饱和,随后的道次以缓慢的速度改善了力学性能。断口形貌分析表明,施加ECAP工艺后,退火铝的韧性断裂模式减小。这与解理和河流模式的形成以及与初始条件相比,韧窝的数量和大小减少有关。最后,x射线衍射结果表明,通过增加通数,铝样品的各向同性程度增强,因为衍射散射最小。
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来源期刊
Journal of Strain Analysis for Engineering Design
Journal of Strain Analysis for Engineering Design 工程技术-材料科学:表征与测试
CiteScore
3.50
自引率
6.20%
发文量
25
审稿时长
>12 weeks
期刊介绍: The Journal of Strain Analysis for Engineering Design provides a forum for work relating to the measurement and analysis of strain that is appropriate to engineering design and practice. "Since launching in 1965, The Journal of Strain Analysis has been a collegiate effort, dedicated to providing exemplary service to our authors. We welcome contributions related to analytical, experimental, and numerical techniques for the analysis and/or measurement of stress and/or strain, or studies of relevant material properties and failure modes. Our international Editorial Board contains experts in all of these fields and is keen to encourage papers on novel techniques and innovative applications." Professor Eann Patterson - University of Liverpool, UK This journal is a member of the Committee on Publication Ethics (COPE).
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