Add to ORKGThe investigation of copper microstructure at nanoscale using synchrotron-based Laue microdiffraction technique is presented. Based on the experimental findings, FEM simulations allow to extract the plastic behaviour dependence on the orientation for the single crystals. The results obtained are used to achieve Cu/SiO2 hybrid bonding with 300 nm Cu pads
MasterThis thesis investigates deformation behaviors of Cu single crystals such as the indentation s...
A more comprehensive investigation of size effects is essential for the design and optimization of m...
The deformation behavior of pure copper polycrystals was investigated by in situ X-ray microdiffract...
The investigation of copper microstructure at nanoscale using synchrotron-based Laue microdiffractio...
International audienceHybrid bonding is a very promising 3D packaging technology which allows extrem...
Plasticity in thin films has been extensively studied by averaging techniques such as wafer curvatur...
International audienceCoherent x-ray micro-diffraction and local mechanical loading can be combined ...
Molecular dynamics (MD) simulations are performed to study crystalline plasticity during nanoindenta...
Abstract: Molecular dynamics (MD) simulations are performed to study crystalline plasticity during n...
In-situ measurement of local orientation and strain Has Been carried out for a copper-polycrystals u...
Understanding the mechanical behaviour of metallic nanostructures is a key issue for their developme...
Micromechanics is a booming research area experiencing the development of new advanced testing metho...
The study of mechanical properties in micron- and submicron-sized metal crystals raises fundamental ...
Recent experiments have shown that formation of dislocation cell structures and rotation of structur...
The deformation behaviour of pure copper single crystals has been investigated by scanning electron ...
MasterThis thesis investigates deformation behaviors of Cu single crystals such as the indentation s...
A more comprehensive investigation of size effects is essential for the design and optimization of m...
The deformation behavior of pure copper polycrystals was investigated by in situ X-ray microdiffract...
The investigation of copper microstructure at nanoscale using synchrotron-based Laue microdiffractio...
International audienceHybrid bonding is a very promising 3D packaging technology which allows extrem...
Plasticity in thin films has been extensively studied by averaging techniques such as wafer curvatur...
International audienceCoherent x-ray micro-diffraction and local mechanical loading can be combined ...
Molecular dynamics (MD) simulations are performed to study crystalline plasticity during nanoindenta...
Abstract: Molecular dynamics (MD) simulations are performed to study crystalline plasticity during n...
In-situ measurement of local orientation and strain Has Been carried out for a copper-polycrystals u...
Understanding the mechanical behaviour of metallic nanostructures is a key issue for their developme...
Micromechanics is a booming research area experiencing the development of new advanced testing metho...
The study of mechanical properties in micron- and submicron-sized metal crystals raises fundamental ...
Recent experiments have shown that formation of dislocation cell structures and rotation of structur...
The deformation behaviour of pure copper single crystals has been investigated by scanning electron ...
MasterThis thesis investigates deformation behaviors of Cu single crystals such as the indentation s...
A more comprehensive investigation of size effects is essential for the design and optimization of m...
The deformation behavior of pure copper polycrystals was investigated by in situ X-ray microdiffract...