Renaud Vayrette scite author profile

Renaud Vayrette

5Publications

64Citation Statements Received

144Citation Statements Given

How they've been cited

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175

139

Affiliations

Université Catholique de Louvain, STMicroelectronics (France), Mines Saint-Étienne

Publications

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On-chip stress relaxation testing method for freestanding thin film materials

Coulombier

Guisbiers

Vayrette

et al. 2012

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A stress relaxation method for freestanding thin films is developed based on an on-chip internal stress actuated microtensile testing set-up. The on-chip test structures are produced using microfabrication techniques involving cleaning, deposition, lithography, and release. After release from the substrate, the test specimens are subjected to uniaxial tension. The applied load decays with the deformation taking place during relaxation. This technique is adapted to strain rates lower than 10(-6)∕s and permits the determination of the strain rate sensitivity of very thin films. The main advantage of the technique is that the relaxation tests are simultaneously performed on thousands of specimens, pre-deformed up to different strain levels, for very long periods of time without monopolizing any external mechanical loading equipment. Proof of concept results are provided for 205-nm-thick sputtered AlSi(0.01) films and for 350-nm-thick evaporated Pd films showing unexpectedly high relaxation at room temperature.

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On-chip fracture testing of freestanding nanoscale materials

Vayrette

Raskin

Pardoen

2015

Engineering Fracture Mechanics

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Size dependent fracture strength and cracking mechanisms in freestanding polycrystalline silicon films with nanoscale thickness

Vayrette

Galcerán

Coulombier

et al. 2016

Engineering Fracture Mechanics

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Residual stress estimation in damascene copper interconnects using embedded sensors

Vayrette

Rivero

Gros

et al. 2010

Microelectronic Engineering

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Multiscale modelling framework for the fracture of thin brittle polycrystalline films: application to polysilicon

et al. 2014

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Micro-electro-mechanical systems (MEMS) made of polycrystalline silicon are widely used in several engineering fields. The fracture properties of polycrystalline silicon directly affect their reliability. The effect of the orientation of grains on the fracture behaviour of polycrystalline silicon is investigated out of the several factors. This is achieved, firstly, by identifying the statistical variation of the fracture strength and critical strain energy release rate, at the nanoscopic scale, over a thin freestanding polycrystalline silicon film having mesoscopic scale dimensions. The fracture stress and strain at the mesoscopic level are found to be closely matching with uniaxial tension experimental results. Secondly, the polycrystalline silicon film is considered at the continuum MEMS scale, and its fracture behaviour is studied by incorporating the nanoscopic scale effect of grain orientation. The entire modelling and simulation of the thin film is achieved by combining the discontinuous Galerkin method and extrinsic cohesive law describing the fracture process.

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Renaud Vayrette

On-chip stress relaxation testing method for freestanding thin film materials

On-chip fracture testing of freestanding nanoscale materials

Size dependent fracture strength and cracking mechanisms in freestanding polycrystalline silicon films with nanoscale thickness

Residual stress estimation in damascene copper interconnects using embedded sensors

Multiscale modelling framework for the fracture of thin brittle polycrystalline films: application to polysilicon

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