钽单晶中晶体取向相关断裂行为

Hojun Lim, P. Noell, J. Carroll
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引用次数: 10

摘要

我们报道了钽单晶在拉伸轴接近[100]、[110]和[111]方向时的晶体取向依赖断裂行为。对三种钽单晶进行了准静态单轴拉伸变形,并对其断口形貌进行了表征。为了了解不同的变形模式和破坏机制,进行了晶体塑性有限元(CP-FE)模拟。实验和CP-FE模拟均表明~[100]试样中存在较强的应变局部化和剪切带状,~[110]试样中存在较少的旋转和大量颈缩,而~[111]单晶中存在明显的晶体旋转和剪切主导行为。此外,在~[100]和~[111]单晶断口处观察到孔洞,而~[110]试样则没有孔洞。这些单晶的破坏过程表明,位错边界是纯钽中空穴成核的必要条件。这项工作证明了晶体取向对失效行为的强烈影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Crystallographic Orientation Dependent Fracture Behavior in Tantalum Single Crystals
Abstract We report crystallographic orientation dependent fracture behavior in tantalum single crystals with the tensile axes oriented close to [100], [110] and [111] directions. Three tantalum single crystals were deformed in quasi-static, uniaxial tension and their fracture surfaces were characterized. To understand different deformation modes and failure mechanisms, crystal plasticity-finite element (CP-FE) simulations were performed. Both experiments and CP-FE simulations showed strong strain localization and shear banding in the ~[100] specimen, little rotation and profuse necking in the ~[110] specimen, and significant crystal rotations associated with shear-dominated behavior in the ~[111] single crystal. In addition, voids were observed in fracture surfaces of ~[100] and ~[111] single crystals while the ~[110] specimen was void-free. The failure processes of these single crystals showed that dislocation boundaries are necessary for void nucleation in pure tantalum. This work demonstrates strong effects of crystallographic orientations in failure behaviors.
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