期刊
MATERIALS CHARACTERIZATION
卷 142, 期 -, 页码 39-42出版社
ELSEVIER SCIENCE INC
DOI: 10.1016/j.matchar.2018.05.016
关键词
Tungsten; Indentation size effect; Geometrically necessary dislocations; HR-EBSD; ECCI
tDuring indentation testing of the low defect density crystalline materials, higher hardness values are found at lower indentation depths, which is referred to as an indentation size effect. The depth-dependence of hardness can be described by the Nix-Gao model, which is based on the concept of Geometrically Necessary Dislocations (GNDs). The underlying dislocation mechanism remains, however, unclear and requires independent measurement of GND density below the indentation. In the present work, the depth-dependency of the GND density is quantified underneath the Berkovich indentations in tungsten via high-resolution electron backscatter diffraction. There a higher GND density is found for lower indentation depths, resulting in a higher Taylor hardness for measured GND density.
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