超塑性Al-Li 8090合金的x射线织构分析

M. Pérez-Prado, M. Cristina, O. Ruano, G. González-Doncel
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引用次数: 3

摘要

研究了8090铝锂合金在不同温度和应变速率条件下的织构演变,分析了其变形过程中的微观机制。在所接收的材料中存在贯穿厚度的纹理梯度。可以看出,8090薄板合金的主要变形机制在中间层和外围区域是不同的。外区织构强度随变形减小,主要成分变化不明显,以晶界滑动为主。而在中间层,织构随着拉伸而锐化,主要织构成分发生了较大变化,表明晶体滑移(crystallographic slip, CS)在该区域的变形中起着重要作用。CS主要发生在两个滑移体系中,并导致取向在欧拉空间中沿β-纤维移动,在纵向试验中向铜分量移动,在横向试验中向黄铜分量移动。8090合金的相对较小的延展性,相对于其他类似的超塑性铝合金,可能是由于CS在中间层的操作。
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Deformation Mechanisms of Superplastic Al–Li 8090 Alloy Examined by X-Ray Texture Measurements
The texture evolution of the Al-Li alloy 8090 has been investigated in order to analyze the microscopic mechanisms operative during deformation under different conditions of temperature and strain rate. A through-thickness texture gradient is present in the as-received material. As will be seen, the predominant deformation mechanisms are different in the mid layer and in the outer regions of the 8090 sheet alloy. In the outer regions, the texture intensity decreases with deformation and no significant changes in the main components were observed, indicating the predominance of grain boundary sliding (GBS). In the mid-layer, however, texture sharpens with straining and major changes in the main texture components were detected, revealing that crystallographic slip (CS) plays an important role in the deformation of this zone. CS takes place mainly in two slip systems and causes the orientations to move along the β-fiber in Euler space, towards the Copper component in longitudinal tests and towards the Brass component in transverse tests. The comparably small ductility of the 8090 alloy, with respect to other similar superplastic aluminum alloys, may be due to the operation of CS in the mid-layer.
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