This paper presents a new numerical approach for modelling the 3D printing process of fibre reinforced polymer composites by fused deposition modelling (FDM). The approach is based on the coupling between two particle methods, namely smoothed particle hydrodynamics (SPH) and discrete element method (DEM). The coupled SPH-DEM model has distinctive advantages in dealing with the free surface flow, large deformation of fibres, and/or fibre-fibre interaction that are involved in the FDM process. A numerical feasibility study is carried out to demonstrate its capability for both short and continuous fibre reinforced polymer composites, with promising results achieved for the rheological flow and fibre orientation and deformation. View Full-Tex
3D printing technology was developed nearly 30 years ago. One of its characteristics is that instead...
AbstractThis paper presents Discrete Element Model simulations of packing of non-cohesive flexible f...
As one of the fastest-growing additive manufacturing (AM) technologies, fused deposition modelling (...
This paper presents a new numerical approach for modelling the 3D printing process of fibre reinforc...
We present a numerical study of the fused deposition modeling 3D printing process of fiber-reinforce...
In this study, we propose an integrated particle approach based on the coupling of smoothed particle...
This work presents a computational model for a discontinuous fibre composite manufacturing process. ...
Fused deposition modelling (FDM) is a widely used additive layer manufacturing process that deposits...
The massive use of composites in the aerospace industry is now possible because of the advent of two...
This paper investigates the three-dimensional (3D) injection molding flow of short fiber-reinforced ...
Three-dimensional printing (3DP), also known as additive manufacturing (AM), has rapidly evolved ove...
This paper presents an assessment of three different particle based approaches for 3D modelling of f...
Non-planar direct deposition additive manufacturing of polymer composites has recently seen increas...
This paper presents Discrete Element Model simulations of packing of non-cohesive flexible fibres in...
3D printing technology was developed nearly 30 years ago. One of its characteristics is that instead...
AbstractThis paper presents Discrete Element Model simulations of packing of non-cohesive flexible f...
As one of the fastest-growing additive manufacturing (AM) technologies, fused deposition modelling (...
This paper presents a new numerical approach for modelling the 3D printing process of fibre reinforc...
We present a numerical study of the fused deposition modeling 3D printing process of fiber-reinforce...
In this study, we propose an integrated particle approach based on the coupling of smoothed particle...
This work presents a computational model for a discontinuous fibre composite manufacturing process. ...
Fused deposition modelling (FDM) is a widely used additive layer manufacturing process that deposits...
The massive use of composites in the aerospace industry is now possible because of the advent of two...
This paper investigates the three-dimensional (3D) injection molding flow of short fiber-reinforced ...
Three-dimensional printing (3DP), also known as additive manufacturing (AM), has rapidly evolved ove...
This paper presents an assessment of three different particle based approaches for 3D modelling of f...
Non-planar direct deposition additive manufacturing of polymer composites has recently seen increas...
This paper presents Discrete Element Model simulations of packing of non-cohesive flexible fibres in...
3D printing technology was developed nearly 30 years ago. One of its characteristics is that instead...
AbstractThis paper presents Discrete Element Model simulations of packing of non-cohesive flexible f...
As one of the fastest-growing additive manufacturing (AM) technologies, fused deposition modelling (...