Uncovering all possible dislocation locks in face-centered cubic materials

IF 9.4 1区 材料科学 Q1 ENGINEERING, MECHANICAL
D. Bajaj, D.L. Chen
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Abstract

Dislocation reactions and locks play an important role in the plastic deformation and mechanical behavior of crystalline materials. Various types of dislocation locks in face-centered cubic (FCC) materials have been reported in the literature pertaining to material-specific molecular-dynamic simulations and high-resolution transmission electron microscopy observations. However, it is unknown how many dislocation locks are possible, and how immobile all the dislocation locks are, with respect to each other. Here we present a discrete mathematics-based approach to reveal all possible dislocation locks in the FCC crystal structure. Totally eight types of dislocation locks are uncovered, resulting from all possible reactions of mobile/glissile (namely, perfect and Shockley partial) dislocations with (a) non-coplanar Burgers vectors which reside on two slip planes intersecting at both obtuse and acute angles and (b) coplanar Burgers vectors. We redefine the degree of dislocation lock immobility based on misorientations between non-close-packed lock planes and close-packed {111} slip planes. The subsequently derived sequences for the dislocation lock immobility and formation tendency are rationalized by the reported experimental and dislocation-dynamics simulation results.

Abstract Image

揭示面心立方材料中所有可能的位错锁
位错反应和位错锁在晶体材料的塑性变形和机械行为中发挥着重要作用。有关材料特定的分子动力学模拟和高分辨率透射电子显微镜观察的文献报道了面心立方(FCC)材料中的各种差排锁。然而,究竟有多少个位错锁是可能的,以及所有位错锁相互之间的固定程度如何,目前尚不得而知。在此,我们提出了一种基于离散数学的方法来揭示 FCC 晶体结构中所有可能的位错锁。我们总共发现了八种类型的位错锁,它们是由移动/裂隙(即完全位错和肖克利部分位错)位错与(a)非共面伯格斯矢量(位于钝角和锐角相交的两个滑移面上)和(b)共面伯格斯矢量的所有可能反应所产生的。我们根据非紧密堆积锁定平面和紧密堆积{111}滑移平面之间的错位重新定义了差排锁定不动度。随后得出的差排锁定不流动性和形成趋势的序列与所报告的实验和差排动力学模拟结果相吻合。
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来源期刊
International Journal of Plasticity
International Journal of Plasticity 工程技术-材料科学:综合
CiteScore
15.30
自引率
26.50%
发文量
256
审稿时长
46 days
期刊介绍: International Journal of Plasticity aims to present original research encompassing all facets of plastic deformation, damage, and fracture behavior in both isotropic and anisotropic solids. This includes exploring the thermodynamics of plasticity and fracture, continuum theory, and macroscopic as well as microscopic phenomena. Topics of interest span the plastic behavior of single crystals and polycrystalline metals, ceramics, rocks, soils, composites, nanocrystalline and microelectronics materials, shape memory alloys, ferroelectric ceramics, thin films, and polymers. Additionally, the journal covers plasticity aspects of failure and fracture mechanics. Contributions involving significant experimental, numerical, or theoretical advancements that enhance the understanding of the plastic behavior of solids are particularly valued. Papers addressing the modeling of finite nonlinear elastic deformation, bearing similarities to the modeling of plastic deformation, are also welcomed.
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