Hybrid sharp-diffuse interface finite element method for accurate thermo-hydrodynamic modeling of melt pools with rapid evaporation.
An Unfitted Finite Element Method, Based on
4 Pith papers cite this work. Polarity classification is still indexing.
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Owner-selected Falk-Winther bubble transforms provide L2- and H1-stable, degree-preserving decompositions for variable-degree hp finite elements, enabling hp-uniform additive Schwarz preconditioners for conforming reaction-diffusion and fitted-interface problems.
Develops explicit IFE functions and an IDG method for elliptic interface problems that achieve optimal H1 and L2 convergence with interface-cut-independent constants and robust matrix conditioning.
Constructs p-robust trace liftings on tetrahedral meshes for stable discrete harmonic extensions and boundary-preserving hp interpolation.
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A hybrid sharp-diffuse interface approach to accurately model melt pool dynamics with rapid evaporation in laser-based processing of metals
Hybrid sharp-diffuse interface finite element method for accurate thermo-hydrodynamic modeling of melt pools with rapid evaporation.