首页|Elastodynamic behaviors of steady moving straight dislocation within thin nano film
Elastodynamic behaviors of steady moving straight dislocation within thin nano film
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The elastodynamic dislocation behaviors are of great interest for understanding the performances of structural alloys under intense dynamic loading conditions.The formation,propagations,and interactions of dislocations(such as injected dislocation,accelerating dislocation,steady moving dislocation at high constant speed)are quite different from static dislocations.For steady-moving dislocation within the isotropic infinite medium,the effects of surface and interface on steady-moving dislocations within limited space are still known.In this paper,we in-vestigate the elastodynamic image stress simulation of steady moving dislocation within film of limited thickness at constant speed using Eigenstrain theory,Lorentz transformation,and steady dynamic equilibrium equations.We propose an efficient solution method that involves complex Fourier series,transforming partial differential equations into ordinary differential equations,and ultimately into a set of algebraic equations in spectral space.The effects of dislocation speed and position near the free surface on the image stress of steady-moving climbing and gliding dislocations within the thin film are examined.The results show that relativistic effects are significant for certain dislocation configurations and stress components,whereas other stress components are less sensitive to relativistic effects near the transonic speed region.
ElastodynamicImage stressDislocationThin film
Ran Tao、Yehui Hong、Zheyu Li、Wenwang Wu
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Institute of Advanced Structure Technology,Beijing Institute of Technology,Beijing 100081,China
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