In this work, a novel multi-scale approach for the numerical simulation of the Additive Manufacturing processes will be developped. The High-Fidelity thermo-mechanical method will be used to feed a simplified approach able speed-up the simulation time. The final objective is to be able to simulate real-size structure produced using such manufacturing technology
FE simulation can be an efficient means of enabling concurrent design and manufacture, particularly ...
The additive manufacturing (AM) is competent method for the manufacturing of complex metal parts wit...
Additive manufacturing (AM) processes have the ability to build complex geometries from a wide varie...
In this work, a novel multi-scale approach for the numerical simulation of the Additive Manufacturin...
Metal Additive Manufacturing has grown from 3D metal printing; this technology leads to manufacturin...
8th International Conference on Mathematical Modeling in Physical Science, 26–29 August 2019, Bratis...
Purpose This paper aims to address the numerical simulation of additive manufacturing (AM) processes...
The complexity of localized and dynamic boundary conditions in additive manufacturing processes mak...
The 5th International Conference on Multi-scale Computational Models for Solids and Fluids (MSF 2021...
Additive manufacturing techniques, specifically those currently employed in metalbased manufacturing...
Additive Manufacturing (AM) is currently enjoying a tremendous boom. However, there is still a cruci...
La fabrication additive par dépôt de polymère à l’état fondu permet la réalisation de pièces plastiq...
Additive Manufacturing (AM) is intensifying the digitalization of the manufacturing and generating d...
In this thesis, finite element (FE) simulations of additive manufacturing (AM) and physically based ...
Compared to traditional manufacturing processes, Additive Manufacturing produces parts by adding mat...
FE simulation can be an efficient means of enabling concurrent design and manufacture, particularly ...
The additive manufacturing (AM) is competent method for the manufacturing of complex metal parts wit...
Additive manufacturing (AM) processes have the ability to build complex geometries from a wide varie...
In this work, a novel multi-scale approach for the numerical simulation of the Additive Manufacturin...
Metal Additive Manufacturing has grown from 3D metal printing; this technology leads to manufacturin...
8th International Conference on Mathematical Modeling in Physical Science, 26–29 August 2019, Bratis...
Purpose This paper aims to address the numerical simulation of additive manufacturing (AM) processes...
The complexity of localized and dynamic boundary conditions in additive manufacturing processes mak...
The 5th International Conference on Multi-scale Computational Models for Solids and Fluids (MSF 2021...
Additive manufacturing techniques, specifically those currently employed in metalbased manufacturing...
Additive Manufacturing (AM) is currently enjoying a tremendous boom. However, there is still a cruci...
La fabrication additive par dépôt de polymère à l’état fondu permet la réalisation de pièces plastiq...
Additive Manufacturing (AM) is intensifying the digitalization of the manufacturing and generating d...
In this thesis, finite element (FE) simulations of additive manufacturing (AM) and physically based ...
Compared to traditional manufacturing processes, Additive Manufacturing produces parts by adding mat...
FE simulation can be an efficient means of enabling concurrent design and manufacture, particularly ...
The additive manufacturing (AM) is competent method for the manufacturing of complex metal parts wit...
Additive manufacturing (AM) processes have the ability to build complex geometries from a wide varie...