Add to ORKGResidual stresses and distortions are key issues in Powder Bed Fusion (PBF) processes, affecting both the manufacturability and the mechanical strength of 3D printed parts. Their prediction via physical modeling could help reduce the number of failed iterations often needed before achieving a successful build. The first part of this thesis concerns a multi-scale PBF simulation method composed of a meso-scale thermo-structural model, a macro-scale structural model, and a scaling strategy named Pointwise Strain Superposition. The method was capable of reproducing the process-induced stresses and distortions on selective laser melted Inconel 718 with first- or higher-order accuracy, despite the uncertainties regarding input parameters and mate...
Process optimization has always been a crucial step for effective usage of metal additive manufactur...
Process optimization has always been a crucial step for effective usage of metal additive manufactur...
Additive Manufacturing (AM) has its proven advantages to unlock the design space and manufacturing c...
The Laser Powder Bed Fusion process as an additive manufacturing method is used for layer-by-layer p...
In this study, a thermomechanical model is developed to predict the melt-pool dimensions and residua...
This survey aims to provide a review on the application of finite element method to optimize process...
An important quality-related aspect of metal-based additive manufacturing (AM) parts is the existenc...
Quality and reliability of additively manufactured (AM) parts using the Laser Powder Bed Fusion (LPB...
Parts manufactured by laser powder bed fusion contain significant residual stress. This stress cause...
For the broader industrial usage of metal additive manufactured parts, especially made by laser powd...
Powder bed fusion (PBF) is one of the most popular techniques in additive manufacturing (AM). The PB...
Ongoing research efforts in industry and academia have a focus on optimal build parameters that lead...
This paper details the experimental validation of a multi-scale simulation strategy that we develope...
This paper details the experimental validation of a multi-scale simulation strategy that we develope...
This paper details the experimental validation of a multi-scale simulation strategy that we develope...
Process optimization has always been a crucial step for effective usage of metal additive manufactur...
Process optimization has always been a crucial step for effective usage of metal additive manufactur...
Additive Manufacturing (AM) has its proven advantages to unlock the design space and manufacturing c...
The Laser Powder Bed Fusion process as an additive manufacturing method is used for layer-by-layer p...
In this study, a thermomechanical model is developed to predict the melt-pool dimensions and residua...
This survey aims to provide a review on the application of finite element method to optimize process...
An important quality-related aspect of metal-based additive manufacturing (AM) parts is the existenc...
Quality and reliability of additively manufactured (AM) parts using the Laser Powder Bed Fusion (LPB...
Parts manufactured by laser powder bed fusion contain significant residual stress. This stress cause...
For the broader industrial usage of metal additive manufactured parts, especially made by laser powd...
Powder bed fusion (PBF) is one of the most popular techniques in additive manufacturing (AM). The PB...
Ongoing research efforts in industry and academia have a focus on optimal build parameters that lead...
This paper details the experimental validation of a multi-scale simulation strategy that we develope...
This paper details the experimental validation of a multi-scale simulation strategy that we develope...
This paper details the experimental validation of a multi-scale simulation strategy that we develope...
Process optimization has always been a crucial step for effective usage of metal additive manufactur...
Process optimization has always been a crucial step for effective usage of metal additive manufactur...
Additive Manufacturing (AM) has its proven advantages to unlock the design space and manufacturing c...