Dislocation pinning effects on fracture behavior: Atomistic and dislocation dynamics simulations - art. no. 132103

Noronha SJ.; Farkas D.

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Dislocation pinning effects on fracture behavior: Atomistic and dislocation dynamics simulations - art. no. 132103

机译：位错钉扎对断裂行为的影响：原子和位错动力学模拟-艺术。没有。 132103

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We introduce an approach in which results from atomistic simulations are combined with discrete dislocation dynamics simulations of crack-tip plasticity. The method is used to study the effects of dislocation pinning due to grain boundaries or secondary particles on the fracture behavior of aluminum. We find that the fracture resistance is reduced with decreasing pinning distance. The results show that the pinning of the dislocations causes a net decrease in the shear stress projected on the slip plane, preventing further dislocation emission. Semibrittle cleavage occurs after a certain number of dislocations is emitted. [References: 23]

机译：我们介绍了一种方法，其中原子模拟的结果与裂纹尖端塑性的离散位错动力学模拟相结合。该方法用于研究由于晶界或二次粒子引起的位错钉扎对铝断裂行为的影响。我们发现，随着钉扎距离的减小，抗断裂性降低。结果表明，位错的钉扎导致滑移面上投影的剪切应力的净减少，从而阻止了进一步的位错发射。在产生一定数量的位错之后发生半脆性断裂。 [参考：23]

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《Physical Review, B. Condensed Matter 》 |2002年第13期| 共1页
作者
Noronha SJ.; Farkas D.;
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正文语种 eng
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关键词
To-ductile transition; Crack-tip; Nanocrystalline; Instability; Nucleation; Metals; Al;

机译：延性转变;裂纹尖端;纳米晶;不稳定性;成核;金属;铝;

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2. 氦原子对镍金属中刃型位错运动行为影响的原子模拟 [J] . 阳喜元中国有色金属学报：英文版 . 2015 ,第008期
3. Dislocation pinning effects on fracture behavior: Atomistic and dislocation dynamics simulations - art. no. 132103 [J] . Noronha SJ., Farkas D. Physical Review, B. Condensed Matter . 2002 ,第13期

机译：位错钉扎对断裂行为的影响：原子和位错动力学模拟-艺术。没有。 132103
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6. Dislocation Dynamics Simulation of Grain Boundary Effects on Yield Behavior of Metals [C] . A. Takahashi, N. Soneda, A. Nomoto, International Conference on Fracture and Strength of Solids . 2004

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7. Atomistic simulation studies of size effects in plasticity and dislocation patterning. [D] . Weingarten, Neil Scott. 2008

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8. Mapping strain rate dependence of dislocation-defect interactions by atomistic simulations [O] . Yue Fan, Yuri N. Osetskiy, Sidney Yip, 2013

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9. Toward a 3D coupled atomistic and discrete dislocation dynamics simulation: dislocation core structures and Peierls stresses with several character angles in FCC aluminum [O] . 2015

机译：进行3D原子和离散位错耦合动力学模拟：FCC铝中位错核心结构和Peierls应力具有多个特征角

Dislocation pinning effects on fracture behavior: Atomistic and dislocation dynamics simulations - art. no. 132103

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