Christian Weißenfels
Christian Weißenfels
Institute of Applied Mechanics, Technische Universität Braunschweig
Verified email at tu-braunschweig.de - Homepage
Title
Cited by
Cited by
Year
Numerical modeling of electrical contacts
C Weißenfels, P Wriggers
Computational Mechanics 46 (2), 301-314, 2010
282010
Stabilization algorithm for the optimal transportation meshfree approximation scheme
C Weißenfels, P Wriggers
Computer Methods in Applied Mechanics and Engineering 329, 421-443, 2018
272018
A machine learning based plasticity model using proper orthogonal decomposition
D Huang, JN Fuhg, C Weißenfels, P Wriggers
Computer Methods in Applied Mechanics and Engineering 365, 113008, 2020
222020
Methods to project plasticity models onto the contact surface applied to soil structure interactions
C Weißenfels, P Wriggers
Computers and Geotechnics 65, 187-198, 2015
192015
Investigation of heat source modeling for selective laser melting
H Wessels, T Bode, C Weißenfels, P Wriggers, TI Zohdi
Computational Mechanics 63 (5), 949-970, 2019
172019
A contact layer element for large deformations
C Weißenfels, P Wriggers
Computational Mechanics 55 (5), 873-885, 2015
172015
Metal particle fusion analysis for additive manufacturing using the stabilized optimal transportation meshfree method
H Wessels, C Weißenfels, P Wriggers
Computer Methods in Applied Mechanics and Engineering 339, 91-114, 2018
142018
Generating virtual process maps of SLM using powder-scale SPH simulations
JP Fürstenau, H Wessels, C Weißenfels, P Wriggers
Computational Particle Mechanics 7 (4), 655-677, 2020
132020
Contact methods integrating plasticity models with application to soil mechanics
C Weißenfels
Hannover: Gottfried Wilhelm Leibniz Universität Hannover, 2013
112013
Peridynamic Petrov–Galerkin method: A generalization of the peridynamic theory of correspondence materials
T Bode, C Weißenfels, P Wriggers
Computer Methods in Applied Mechanics and Engineering 358, 112636, 2020
72020
Computational Contact Mechanics with the Finite Element Method
L De Lorenzis, P Wriggers, C Weißenfels
Encyclopedia of Computational Mechanics Second Edition, 1-45, 2017
72017
The neural particle method–An updated Lagrangian physics informed neural network for computational fluid dynamics
H Wessels, C Weißenfels, P Wriggers
Computer Methods in Applied Mechanics and Engineering 368, 113127, 2020
62020
Modelling of serrated chip formation processes using the stabilized optimal transportation meshfree method
D Huang, C Weißenfels, P Wriggers
International Journal of Mechanical Sciences 155, 323-333, 2019
52019
Mixed peridynamic formulations for compressible and incompressible finite deformations
T Bode, C Weißenfels, P Wriggers
Computational Mechanics, 1-12, 2020
42020
Free surface tension in incompressible smoothed particle hydrodynamcis (ISPH)
JP Fürstenau, C Weißenfels, P Wriggers
Computational Mechanics 65 (2), 487-502, 2020
42020
DEM‐FEM coupled numerical investigation of granular materials to increase crashworthiness of double‐hull vessels
MA Chaudry, C Woitzik, C Weißenfels, A Düster, P Wriggers
PAMM 16 (1), 311-312, 2016
42016
Modelling of soil structure interaction by applying a hypoplastic material behaviour within mortar contact formulation
P Dziewiecki, C Weißenfels, P Wriggers
Holistic Simulation of Geotechnical Installation Processes, 59-72, 2015
42015
Direct nodal imposition of surface loads using the divergence theorem
C Weißenfels
Finite Elements in Analysis and Design 165, 31-40, 2019
32019
Application of enhanced peridynamic correspondence formulation for three-dimensional simulations at large strains
P Hartmann, C Weißenfels, P Wriggers
Virtual Design and Validation, 81-104, 2020
12020
Application of Enhanced Peridynamic Correspondence Formulation for Three-Dimensional Simulations at Large Strains
P Hartmann, C Weißenfels, P Wriggers
Virtual Design and Validation, 81-104, 2020
12020
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