Nanoindentation study of size effect on shear transformation zone size in a Ni–Nb metallic glass

Nanoindentation study of size effect on shear transformation zone size in a Ni–Nb metallic glass

An apparent reduction in both size and amount of shear bands was observed, as the sample converted from 45μm ribbon to 1.8μm film in a Ni–Nb metallic glass. Such size effect on the macroscopic plastic characteristic could be intrinsically related to the scale variation of the shear transformation zo...

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Bibliographic Details
Published in:Materials science & engineering. A, Structural materials : properties, microstructure and processing Vol. 627; pp. 153 - 160
Main Authors: Ma, Y., Ye, J.H., Peng, G.J., Wen, D.H., Zhang, T.H.
Format: Journal Article
Language:English
Published: Elsevier B.V 01-03-2015
Subjects:
Amorphous materials
Metallic glass
Metallic glasses
Nanoindentation
Nickel
Ribbons
Shear
Shear transformation zone
Size effect
Statistical analysis
Strain rate sensitivity
Transformations
Yield stress
Strain rate sensitivity
Shear transformation zone
Yield stress
Metallic glass
Nanoindentation
Size effect
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Summary:An apparent reduction in both size and amount of shear bands was observed, as the sample converted from 45μm ribbon to 1.8μm film in a Ni–Nb metallic glass. Such size effect on the macroscopic plastic characteristic could be intrinsically related to the scale variation of the shear transformation zone (STZ). Statistical analysis of the maximum shear stress, which is based on the distribution of first pop-in events in nanoindentation, was employed to estimate the STZ volume and atoms it contains. The result indicates that the STZ size decreases from 83 atoms in the ribbon to 36 atoms in the film. This phenomenon was consistent with the result by another experimental method based on the strain rate sensitivity (SRS). Upon nanoindentation creep test, STZ sizes with 44 atoms and 18 atoms were calculated for the ribbon and film, respectively. The variation trend of the STZ size was discussed in terms of free volume content combined with internal stress which arises during the film deposition and the local atomic structure changes recognized by EXAFS measurement.
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content type line 23
ISSN:0921-5093
1873-4936
DOI:10.1016/j.msea.2015.01.001