Formation of Cu-type shear bands and their influence on deformation and texture of rolled f.c.c. {112}〈111〉 single crystals

Acta Metallurgica et Materialia Pub Date : 1995-10-01 DOI:10.1016/0956-7151(95)90164-7

P. Wagner, O. Engler, K. Lücke

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引用次数: 144

Abstract

Microstructural and textural evolution during rolling were investigated in (112)[11 $1$ ] single crystals of Al, Cu and homogenous supersaturated All.9wt%Cu. After a rolling degre of 30% the initial C-orientation (112)[11 $1$ ] of all three materials has rotated towards the so called D-orientation (4411)[1111 $8$ ]. While in the non-shear banding Al the D-orientation remains stable up to high rolling degrees, in the shear banding materials Cu and AlCu it rotates back to the initial C-orientation simultaneously with the formation of shear bands. This orientation change is explained by a rigid body rotation due to the special geometry of a deformation with unidirectional shear bands. With the onset of shear band formation also strong orientation scatterings about tthe transverse direction appear in the pole figures. These scatterings are located inside the shear bands as well as in their vicinity. They are due to the strong shear deformation and the resulting reaction stresses occurring in the shear bands and in their vicinity, respectively.

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cu型剪切带的形成及其对轧制f.c.c{112} < 111 >单晶变形和织构的影响

研究了(112)[111]Al、Cu和均匀过饱和All.9wt%Cu单晶在轧制过程中的组织和织构演变。经过30%的滚动度后，三种材料的初始c取向(112)[111]已经旋转到所谓的d取向(4411)[11118]。而在非剪切带化Al中，d取向在高轧制度下保持稳定，在剪切带化材料Cu和Al中，随着剪切带的形成，它同时旋转回初始的c取向。由于具有单向剪切带的变形的特殊几何形状，这种方向变化可以用刚体旋转来解释。随着剪切带形成的开始，极图中也出现了沿横向方向的强定向散射。这些散点位于剪切带内部及其附近。这是由于强烈的剪切变形和由此产生的反应力分别发生在剪切带和剪切带附近。

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Acta Metallurgica et Materialia

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