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材料研究学报 2005
Tensile deformation mechanism in pure copper subjected to surface mechanical attrition treatment
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Abstract:
The ambient tensile deformation characteristics of copper subjected to the surface mechanical attrition treatment (SMAT) was investigated by means of the electron channeling contrast in scanning electron microscopy (SEM-ECC). It was found that during tensile the shear bands were the common deformation characteristics in nano-grained layer, submicro-grained layer and transition layer formed by dislocation cells. The morphology of the shear bands slightly varied in the surface layer with different structures. The shear bands both in nano-grained layer and submicro-grained layer were formed as a result of the shear sliding along a planar interface. The tensile deformation in transition layer mainly occurred in a scale of the original grains. The shear bands were formed basically according with the rule of crystallography.
