Texture and Mechanical Anisotropy of Ultrafine-Grained Aluminum Alloy AA6016 Produced by Accumulative Roll Bonding

Texture, Stress, and Microstructure Pub Date : 2008-03-12 DOI:10.1155/2008/328754
W. Skrotzki, I. Hünsche, J. Hüttenrauch, C. Oertel, H. Brokmeier, H. Höppel, I. Topić
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引用次数: 16

Abstract

The texture of ultrafine-grained Al alloy AA6016 produced by accumulative roll bonding (ARB) has been measured by neutron diffraction. The starting texture consists of a strong cube component. During ARB, this texture breaks down and a texture typical for rolling of face-centered cubic metals with high stacking fault energy develops. The texture after 8 ARB cycles is characterised by the β -fiber with the Cu component dominating. Moreover, the rotated cube component is formed. This component is typical for simple shear, which takes place during rolling on the surfaces of the sheets. Based on the Taylor factor and calculated Lankford parameter, the mechanical anisotropy of the advanced metal sheets is discussed.
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累积辊接法制备超细晶铝合金AA6016的织构及力学各向异性
用中子衍射法测定了累积辊焊(ARB)法制备的超细晶铝合金AA6016的织构。初始纹理由一个强立方体组件组成。在ARB过程中,这种织构被破坏,形成了具有高层错能的面心立方金属轧制的典型织构。经过8次ARB循环后的织构以β纤维为主,Cu组分占主导地位。此外,还形成了旋转立方体分量。这个组件是典型的简单剪切,它发生在轧制板材表面。基于Taylor因子和计算的Lankford参数,讨论了先进金属薄板的力学各向异性。
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Texture, Stress, and Microstructure
Texture, Stress, and Microstructure
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