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Journal of Materials Engineering and Performance

Erschienen in:

17.02.2017

Lateral Compression Properties of Magnesium Alloy Tubes Fabricated via Hydrostatic Extrusion Integrated with Circular ECAP

verfasst von: Jiuming Lv, Fangyi Hu, Quoc Dinh Cao, Renshu Yuan, Zhilin Wu, Hongming Cai, Lei Zhao, Xinping Zhang

Erschienen in: Journal of Materials Engineering and Performance | Ausgabe 3/2017

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Abstract

Hydrostatic extrusion integrated with circular equal channel angular pressing has been previously proposed for fabricating AZ80 magnesium alloy tubes as a method to obtain high-strength tubes for industrial applications. In order to axial tensile strength, circumferential mechanical properties are also important for tubular structures. The tensile properties of AZ80 tubes have been previously studied; however, the circumferential properties have not been examined. In this work, circumferential mechanical properties of these tubes were studied using lateral compression tests. An analytical model is proposed to evaluate the circumferential elongation, which is in good agreement with finite element results. The effects of the extrusion ratio and conical mandrel angle on the circumferential elongation and lateral compression strength are discussed. The strain distribution in the sample during lateral compression testing was found to be inhomogeneous, and cracks initially appeared on the inner surface of the sample vertex. The circumferential elongation and lateral compression strength increased with the extrusion ratio and conical mandrel angle. The anisotropy of the tube’s mechanical properties was insignificant when geometric effects were ignored.

Vorheriger Artikel Friction Stir Processing of Al with Mechanically Alloyed Al-TiO2-Graphite Powder: Microstructure and Mechanical Properties

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Titel: Lateral Compression Properties of Magnesium Alloy Tubes Fabricated via Hydrostatic Extrusion Integrated with Circular ECAP
verfasst von: Jiuming Lv
Fangyi Hu
Quoc Dinh Cao
Renshu Yuan
Zhilin Wu
Hongming Cai
Lei Zhao
Xinping Zhang
Publikationsdatum: 17.02.2017
Verlag: Springer US
Erschienen in: Journal of Materials Engineering and Performance / Ausgabe 3/2017
Print ISSN: 1059-9495
Elektronische ISSN: 1544-1024
DOI: https://doi.org/10.1007/s11665-017-2558-1

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