A deforming-mesh finite-element approach applied to the large-translation and free-surface scenario of fused deposition modeling
From MaRDI portal
Publication:6537419
DOI10.1002/fld.5151MaRDI QIDQ6537419
Stefanie Elgeti, Ferdinando Auricchio, Felipe González, Marek Behr
Publication date: 14 May 2024
Published in: International Journal for Numerical Methods in Fluids (Search for Journal in Brave)
Cites Work
- Unnamed Item
- Deforming fluid domains within the finite element method: five mesh-based tracking methods in comparison
- Volume of fluid (VOF) method for the dynamics of free boundaries
- A new strategy for finite element computations involving moving boundaries and interfaces --- The deforming-spatial-domain/space-time procedure. II: Computation of free-surface flows, two-liquid flows, and flows with drifting cylinders
- The virtual ring shear-slip mesh update method
- Finite element solution strategies for large-scale flow simulations
- Mesh update strategies in parallel finite element computations of flow problems with moving boundaries and interfaces
- A better consistency for low-order stabilized finite element methods
- The shear-slip mesh update method
- A novel approach to fluid-structure interaction simulations involving large translation and contact
- Boundary-conforming free-surface flow computations: interface tracking for linear, higher-order and isogeometric finite elements
- Boundary-conforming finite element methods for twin-screw extruders: unsteady -- temperature-dependent -- non-Newtonian simulations
- Radial Basis Functions for Interface Interpolation and Mesh Deformation
- GMRES: A Generalized Minimal Residual Algorithm for Solving Nonsymmetric Linear Systems
This page was built for publication: A deforming-mesh finite-element approach applied to the large-translation and free-surface scenario of fused deposition modeling
