S. Gravier scite author profile

Motivated by recent studies demonstrating a high strength -high ductility potential of nano-scale metallic glass samples, the mechanical response of freestanding Zr 65 Ni 35 film with sub-micron thickness has been investigated by combining advanced on-chip tensile testing and electron microscopy. Large deformation up to 15% is found for specimen thicknesses below 500 nm with variations depending on specimen size and frame compliance. The deformation is homogenous until fracture, with no evidence of shear banding.The yield stress is doubled when decreasing the specimen cross-section, reaching ~3 GPa for small crosssections. The fracture strain variation is related to both the stability of the test device and to the specimen size. The study concludes on clear disconnect between the mechanisms controlling the onset of plasticity and the fracture process.

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Size-dependent failure mechanisms in ZrNi thin metallic glass films

Ghidelli

Gravier

Blandin

et al. 2014

Scripta Materialia

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Structural Signature of Plasticity Unveiled by Nano-Scale Viscoelastic Contact in a Metallic Glass

Zeng

Wang

et al. 2016

Sci Rep

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Room-temperature plasticity in metallic glasses (MGs) is commonly associated with local structural heterogeneity; however, direct observation of the subtle structural change caused by plasticity is vitally important but the data are extremely scarce. Based on dynamic atomic force microscopy (DAFM), here we show that plasticity-induced structural evolution in a Zr-Ni MG can be revealed via nano-scale viscoelastic contacts between an AFM tip and plastically deformed MG surface layers. Our experimental results clearly show a spatial amplification of the nano-scale structural heterogeneity caused by the distributed plastic flow, which can be linked to the limited growth, reorientation and agglomeration of some nano-scale energy-absorbing regions, which are reminiscent of the behavior of the defect-like regions with non-affine deformation as conceived in many theories and models. Furthermore, we are able to experimentally extract the thermodynamic properties of these nano-scale regions, which possess an energy barrier of 0.3–0.5 eV, about half of that for a typical shear transformation event that usually occurs at the onset of plasticity. The outcome of our current work sheds quantitative insights into the correlation between plasticity and structural heterogeneity in MGs.

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On the use of atomic force microscopy for structural mapping of metallic-glass thin films

Zeng¹,

Chu²,

Chen³

et al. 2014

Intermetallics

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Compositional-induced structural change in ZrxNi100−x thin film metallic glasses

Ghidelli

Gravier

Blandin

et al. 2014

Journal of Alloys and Compounds

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High temperature deformation in a lanthanum based bulk metallic glass showing a pronounced secondary relaxation

Qiao¹,

Pelletier²,

Blandin³

et al. 2013

Materials Science and Engineering: A

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S. Gravier

Fractal growth of the dense-packing phase in annealed metallic glass imaged by high-resolution atomic force microscopy

Extrinsic mechanical size effects in thin ZrNi metallic glass films

Homogeneous flow and size dependent mechanical behavior in highly ductile Zr65Ni35 metallic glass films

Size-dependent failure mechanisms in ZrNi thin metallic glass films

Structural Signature of Plasticity Unveiled by Nano-Scale Viscoelastic Contact in a Metallic Glass

On the use of atomic force microscopy for structural mapping of metallic-glass thin films

Compositional-induced structural change in ZrxNi100−x thin film metallic glasses

High temperature deformation in a lanthanum based bulk metallic glass showing a pronounced secondary relaxation

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