Add to ORKGAdditive manufacturing constitutes a promising production technology with potential application in a broad range of industrial areas. In this type of manufacturing process, objects are created from powder particles by adding layers of material upon one another through selectively melting particles from the powder bed. However, understanding the mechanical behavior of the powder during manufacturing as a function of material properties and particle shape is an essential pre-requisite for optimizing the production process. Here we develop a numerical tool for modeling the dynamics of powder particles during additive manufacturing based on force-based simulations by means of the Discrete Element Method (DEM). An existing DEM software (LIGGGHTS...
Additive manufacturing processes currently penetrate both science and industry. These methods provid...
3D food printing is a new and rapidly developing technology capable of creating entirely new food st...
Powder materials exhibit complex fluid-like features when subject to flow processes. Bulk behaviour ...
Sub-project B1 focuses on simulating the powder recoating process in additive manufacturing. The pri...
Part of the optimization steps for additive manufacturing is related to the correct understanding of...
We have developed the first particle-based numerical tool to simulate the coating of powder particle...
This paper investigates the potential of the discrete element method to simulate the physics of part...
The review of capability of discrete element method (DEM) for simulating pharmaceutical powder mixin...
Particle-based numerical methods enable different process simulations for powder bed additive manufa...
Particle-based numerical methods enable different process simulations for powder bed additive manufa...
Powders used in additive manufacturing (AM) are spread into a compact layer of particles for sinteri...
AbstractPowders used in additive manufacturing (AM) are spread onto a compact layer of particles for...
International audienceThe aim of this work is to understand the granular behavior of metal powder du...
International audiencePowder bed properties are of main interests in additive manufacturing processe...
The Discrete Element Method (DEM) has been shown in the literature to be able to match the results o...
Additive manufacturing processes currently penetrate both science and industry. These methods provid...
3D food printing is a new and rapidly developing technology capable of creating entirely new food st...
Powder materials exhibit complex fluid-like features when subject to flow processes. Bulk behaviour ...
Sub-project B1 focuses on simulating the powder recoating process in additive manufacturing. The pri...
Part of the optimization steps for additive manufacturing is related to the correct understanding of...
We have developed the first particle-based numerical tool to simulate the coating of powder particle...
This paper investigates the potential of the discrete element method to simulate the physics of part...
The review of capability of discrete element method (DEM) for simulating pharmaceutical powder mixin...
Particle-based numerical methods enable different process simulations for powder bed additive manufa...
Particle-based numerical methods enable different process simulations for powder bed additive manufa...
Powders used in additive manufacturing (AM) are spread into a compact layer of particles for sinteri...
AbstractPowders used in additive manufacturing (AM) are spread onto a compact layer of particles for...
International audienceThe aim of this work is to understand the granular behavior of metal powder du...
International audiencePowder bed properties are of main interests in additive manufacturing processe...
The Discrete Element Method (DEM) has been shown in the literature to be able to match the results o...
Additive manufacturing processes currently penetrate both science and industry. These methods provid...
3D food printing is a new and rapidly developing technology capable of creating entirely new food st...
Powder materials exhibit complex fluid-like features when subject to flow processes. Bulk behaviour ...