The method reformulates ALE mesh motion as independent multi-patch spline parameterizations per time step, using barrier functions, tangential-slip reparameterization, and constant-preserving quasi-interpolation to enable large-rotation FSI simulations.
Fixed-point fluid–structure interaction solvers with dynamic relaxation
2 Pith papers cite this work, alongside 539 external citations. Polarity classification is still indexing.
2
Pith papers citing it
539
external citations · Crossref
citation-role summary
background 1
method 1
citation-polarity summary
years
2026 2verdicts
UNVERDICTED 2representative citing papers
A stable implicit coupling algorithm for fluid-rigid body interactions is developed within the DF-IBM framework, using relaxation for robustness and PISO optimizations, and validated on benchmarks.
citing papers explorer
-
Parameterization-driven arbitrary Lagrangian-Eulerian method for large-deformation isogeometric fluid-structure interaction
The method reformulates ALE mesh motion as independent multi-patch spline parameterizations per time step, using barrier functions, tangential-slip reparameterization, and constant-preserving quasi-interpolation to enable large-rotation FSI simulations.
-
Stable fluid-rigid body interaction algorithm using the direct-forcing immersed boundary method (DF-IBM)
A stable implicit coupling algorithm for fluid-rigid body interactions is developed within the DF-IBM framework, using relaxation for robustness and PISO optimizations, and validated on benchmarks.