Title of article
Interfacial diffusion in Cu with a gradient nanostructured surface layer Original Research Article
Author/Authors
Z.B. Wang، نويسنده , , K. Lu، نويسنده , , G. Wilde، نويسنده , , S.V. Divinski، نويسنده ,
Issue Information
دوهفته نامه با شماره پیاپی سال 2010
Pages
11
From page
2376
To page
2386
Abstract
A graded microstructure was produced in the surface layer of a pure Cu sample by means of surface mechanical attrition treatment (SMAT) [Wang K, Tao NR, Liu G, Lu J, Lu K. Acta Mater 2006;54:5281.]. The diffusion behavior of 63Ni in such a surface layer was investigated by the radiotracer technique at temperatures <438 K. It is shown that the effective diffusivity in the top 10 μm surface layer is more than 2 orders of magnitude higher than that along conventional high-angle grain boundaries (HAGB) in Cu of similar purity. The diffusion rate increases gradually with increasing depth up to 30–50 μm, and then decreases with further increasing depth. The enhanced diffusivities reveal higher-energy states of various interfaces in the SMAT surface layer. The excess free energy of HAGB in this layer is estimated to be ∼30% higher than that of conventional grain boundaries. An apparent retardation of the effective diffusion rate in the top 25 μm surface layer is induced by tracer leakage into numerous twin-boundary-like interfaces, while the gradual decrease in interface excess free energy correlates with the observed decrease in diffusivity in the subsurface layer at depths exceeding 50 μm.
Keywords
Surface mechanical attrition treatment , Twin boundaries , Diffusion , Grain boundaries , Nanostructured material
Journal title
ACTA Materialia
Serial Year
2010
Journal title
ACTA Materialia
Record number
1144836
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