Jan Helmig
Jan Helmig
Ph.D. Student, Chair for Computational Analysis of Technical Systems (CATS), RWTH Aachen University
Bestätigte E-Mail-Adresse bei cats.rwth-aachen.de - Startseite
Titel
Zitiert von
Zitiert von
Jahr
Fluid–structure interaction with NURBS-based coupling
N Hosters, J Helmig, A Stavrev, M Behr, S Elgeti
Computer Methods in Applied Mechanics and Engineering 332, 520-539, 2018
262018
Boundary-conforming finite element methods for twin-screw extruders using spline-based parameterization techniques
J Hinz, J Helmig, M Möller, S Elgeti
Computer Methods in Applied Mechanics and Engineering 361, 112740, 2020
92020
Boundary-conforming finite element methods for twin-screw extruders: Unsteady-temperature-dependent-non-Newtonian simulations
J Helmig, M Behr, S Elgeti
Computers & Fluids 190, 322-336, 2019
62019
Standardized non-intrusive reduced order modeling using different regression models with application to complex flow problems
A Bērziņš, J Helmig, F Key, S Elgeti
arXiv preprint arXiv:2006.13706, 2020
52020
Combining boundary‐conforming finite element meshes on moving domains using a sliding mesh approach
J Helmig, F Key, M Behr, S Elgeti
International Journal for Numerical Methods in Fluids 93 (4), 1053-1073, 2021
2021
A Sliding Interface Approach with Application to Twin-Screw Extruders
J Helmig, SN Elgeti
Universitätsbibliothek der RWTH Aachen, 2019
2019
Boundary-Conforming Finite Element Methods for Twin-Screw Extruders using Spline-Based Meshing Techniques: Non-Isothermal Flow Simulations for Complex Screw Elements
J Helmig, J Hinz, M Möller, S Elgeti
Spline-Based Parameterization Techniques and Applications to Twin-Screw Machine Geometries
J Hinz, J Helmig, M Möller, S Elgeti, A Shamansky
A Contribution to Spline-Based Fluid-Structure Analysis Using the NURBS-Enhanced Finite-Element Method
J Helmig
Boundary-Conforming Space-Time Finite Elements for Co-Rotating Intermeshing Domains
J Helmig, M Behr, S Elgeti
Spline-based Fluid-Structure-Interaction for Sloshing Tanks
S Elgeti, N Hosters, A Stavrev, J Helmig, M Behr
A Numerical Investigation of the Stability of Different Schemes for a Simplified Fluid-Structure Interaction Scheme with Application to Physiological Problems
J Helmig, KA Mardal, DIL Pauli
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