Influence of Sheet Conditions on In-Plane Strain Evolution via Ex-Situ Tensile Deformation of Ti-3Al-2.5V at Room Temperature

J. Kwame, E. Yakushina, P. Blackwell
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引用次数: 1

Abstract

Localised plastic deformation evolution was examined in a near alpha Ti-3Al-2.5V alloy with indent defect and defect free surfaces using digital image correlation, an interrupted uniaxial tensile test and scanning electron microscopy. The main aim was to understand the role of the localised strain evolution at micro scale and the underlying deformation mechanisms that influence the global mechanical behaviour of the material. The microstructures captured at different stages of deformation were processed using a digital image correlation system, whose outputs were analysed through Matlab, to ascertain the localised strain evolution observed in each surface condition. This work found that the strains observed at the deformation bands along the indent defect edge, were significantly higher than those observed in the deformed β phase field. The deformation bands concentrating at the tip of the indent defect acted as a fertile site for early crack nucleation and propagation with a reduced localised fracture strain. For a defect free surface, the absence of defect zones acting as a high stress concentration site meant that strain aggregation was minimised and the α phase field was able to sufficiently accommodate the β phase deformation resulting in higher fracture strains.
室温下板材条件对Ti-3Al-2.5V非原位拉伸变形面内应变演化的影响
利用数字图像相关、中断单轴拉伸试验和扫描电镜,研究了具有压痕缺陷和无缺陷表面的近α Ti-3Al-2.5V合金的局部塑性变形演变。主要目的是了解微观尺度下局部应变演化的作用,以及影响材料整体力学行为的潜在变形机制。利用数字图像相关系统对不同变形阶段捕获的微观结构进行处理,并通过Matlab对其输出进行分析,以确定在每种表面条件下观察到的局部应变演变。研究发现,沿压痕缺陷边缘变形带处的应变明显高于变形β相场处的应变。集中在缩进缺陷尖端的变形带是早期裂纹形核和扩展的温床,局部断裂应变降低。对于无缺陷表面,没有作为高应力集中部位的缺陷区意味着应变聚集最小化,α相场能够充分容纳β相变形,从而产生更高的断裂应变。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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