Add to ORKGThis project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 862015 for the project Multi-scale Optimisation for Additive Manufacturing of fatigue resistant shock-absorbing MetaMaterials (MOAMMM) of the H2020-EU.1.2.1. - FET Open Programm
This paper presents a multiyear distribution network planning optimization model for managing the op...
Rigorous scheduling that uses hard heuristics and allows forceful shutdown of process units, whether...
In order to provide a complete description of a materials thermoelectric power factor, in addition t...
his project has received funding from the European Union’s Horizon 2020 research and innovation prog...
Homogenization-based multi-scale analyses are widely used to account for the effect of material hete...
In order to make Computational homogenization affordable, pre-off-line finite element simulations ar...
Computational homogenization embedded in a multi-scale analysis is a versatile tool also called the ...
n order to identify the behaviour of a UD-composite, a large amount of experimental tests are needed...
Artificial Neural Networks (NNWs) are appealing tools to serve as surrogate model of high dimension...
In this article, four different numerical models for the investigation of phase change processes wit...
When developing stochastic models or performing uncertainty quantification in the context of multi-s...
Computational design is a key part in most engineering applications, thanks to the possibility to cr...
In the present study, a coupled 3D transient thermo-chemical analysis together with 2D plane strain ...
When developing stochastic models or performing uncertainty quantification in the context of multi-s...
A brief discussion on reductive vs integrative investigation A case study: how integrative computati...
This paper presents a multiyear distribution network planning optimization model for managing the op...
Rigorous scheduling that uses hard heuristics and allows forceful shutdown of process units, whether...
In order to provide a complete description of a materials thermoelectric power factor, in addition t...
his project has received funding from the European Union’s Horizon 2020 research and innovation prog...
Homogenization-based multi-scale analyses are widely used to account for the effect of material hete...
In order to make Computational homogenization affordable, pre-off-line finite element simulations ar...
Computational homogenization embedded in a multi-scale analysis is a versatile tool also called the ...
n order to identify the behaviour of a UD-composite, a large amount of experimental tests are needed...
Artificial Neural Networks (NNWs) are appealing tools to serve as surrogate model of high dimension...
In this article, four different numerical models for the investigation of phase change processes wit...
When developing stochastic models or performing uncertainty quantification in the context of multi-s...
Computational design is a key part in most engineering applications, thanks to the possibility to cr...
In the present study, a coupled 3D transient thermo-chemical analysis together with 2D plane strain ...
When developing stochastic models or performing uncertainty quantification in the context of multi-s...
A brief discussion on reductive vs integrative investigation A case study: how integrative computati...
This paper presents a multiyear distribution network planning optimization model for managing the op...
Rigorous scheduling that uses hard heuristics and allows forceful shutdown of process units, whether...
In order to provide a complete description of a materials thermoelectric power factor, in addition t...