Add to ORKGThe present thesis makes a connection between spatially resolved strain correlations and material processing history. Such correlations can be used to infer and classify prior deformation history of a sample at various strain levels with the use of Machine Learning approaches. A simple and concrete example of uniaxially compressed crystalline thin films of various sizes, generated by two-dimensional discrete dislocation plasticity simulations is examined. At the nanoscale, thin films exhibit yield-strength size effects with noisy mechanical responses which create an interesting challenge for the application of Machine Learning techniques. Moreover, this thesis demonstrates the prediction of the average mechanical responses of thin films bas...
Discrete dislocation calculations suggest that statistical effects are important in the modeling of ...
When deformed beyond their elastic limits, crystalline solids flow plastically via particle rearrang...
On the micrometer scale, deformation properties of metals change profoundly: the smooth and continuo...
Predicting the behavior of complex systems is one of the main goals of science. An important example...
Plastic deformation of micron-scale crystalline solids exhibits stress-strain curves with significan...
Predicting the behaviour of complex systems is one of the main goals of science. An important exampl...
Deformation of crystalline materials is an interesting example of complex system behaviour. Small sa...
Metals in small volumes display a strong dependence on initial conditions, which translates into siz...
The continued advancements in material development and design require understanding the relationship...
The miniaturization trends on electronic components manufacturing, have challenged conventional kno...
Line defects in crystals, known as dislocations, govern the mechanisms of plastic deformation at the...
Perhaps the best definition of digital image correlation (DIC) appears in the recent book “Image Cor...
This work focuses on integrating crystal plasticity based deformation models and machine learning te...
International audienceA mechanical science of materials, based on data science, is formulated to pre...
| openaire: EC/H2020/857470/EU//NOMATEN Funding Information: We acknowledge support from the Europea...
Discrete dislocation calculations suggest that statistical effects are important in the modeling of ...
When deformed beyond their elastic limits, crystalline solids flow plastically via particle rearrang...
On the micrometer scale, deformation properties of metals change profoundly: the smooth and continuo...
Predicting the behavior of complex systems is one of the main goals of science. An important example...
Plastic deformation of micron-scale crystalline solids exhibits stress-strain curves with significan...
Predicting the behaviour of complex systems is one of the main goals of science. An important exampl...
Deformation of crystalline materials is an interesting example of complex system behaviour. Small sa...
Metals in small volumes display a strong dependence on initial conditions, which translates into siz...
The continued advancements in material development and design require understanding the relationship...
The miniaturization trends on electronic components manufacturing, have challenged conventional kno...
Line defects in crystals, known as dislocations, govern the mechanisms of plastic deformation at the...
Perhaps the best definition of digital image correlation (DIC) appears in the recent book “Image Cor...
This work focuses on integrating crystal plasticity based deformation models and machine learning te...
International audienceA mechanical science of materials, based on data science, is formulated to pre...
| openaire: EC/H2020/857470/EU//NOMATEN Funding Information: We acknowledge support from the Europea...
Discrete dislocation calculations suggest that statistical effects are important in the modeling of ...
When deformed beyond their elastic limits, crystalline solids flow plastically via particle rearrang...
On the micrometer scale, deformation properties of metals change profoundly: the smooth and continuo...