Molecular mechanics in the context of the finite element method J Wackerfuß International Journal for Numerical Methods in Engineering 77 (7), 969-997, 2009 | 88 | 2009 |
A mixed hybrid finite beam element with an interface to arbitrary three-dimensional material models J Wackerfuß, F Gruttmann Computer Methods in Applied Mechanics and Engineering 198 (27-29), 2053-2066, 2009 | 46 | 2009 |
A nonlinear Hu–Washizu variational formulation and related finite-element implementation for spatial beams with arbitrary moderate thick cross-sections J Wackerfuß, F Gruttmann Computer Methods in Applied Mechanics and Engineering 200 (17-20), 1671-1690, 2011 | 44 | 2011 |
Efficient finite element formulation for the analysis of localized failure in beam structures J Wackerfuß International journal for numerical methods in engineering 73 (9), 1217-1250, 2008 | 15 | 2008 |
Introducing the Logarithmic finite element method: a geometrically exact planar Bernoulli beam element C Schröppel, J Wackerfuß Advanced Modeling and Simulation in Engineering Sciences 3, 1-42, 2016 | 8 | 2016 |
A general approximation of the exponential Cauchy–Born hypothesis to model arbitrarily shaped shell‐like nanostructures within continuum mechanics C Findeisen, J Wackerfuß International Journal for Numerical Methods in Engineering 105 (10), 747-780, 2016 | 7 | 2016 |
An efficient semi-analytical simulation framework to analyse laminated prismatic thin-walled beams J Wackerfuß, AM Kroker Computers & Structures 208, 32-50, 2018 | 6 | 2018 |
Polynomial shape functions on the logarithmic space: the LogFE method C Schröppel, J Wackerfuß PAMM 15 (1), 469-470, 2015 | 6 | 2015 |
Algebraic graph theory and its applications for mesh generation C Schröppel, J Wackerfuß PAMM 12 (1), 663-664, 2012 | 6 | 2012 |
Meshing highly regular structures: The case of super carbon nanotubes of arbitrary order C Schröppel, J Wackerfuß Journal of Nanomaterials 16 (1), 441-441, 2015 | 5 | 2015 |
An advanced finite element formulation for piezoelectric beam structures D Legner, J Wackerfuß, S Klinkel, W Wagner Computational Mechanics 52, 1331-1349, 2013 | 5 | 2013 |
Coupling 2D continuum and beam elements: a mixed formulation for avoiding spurious stresses S Klarmann, J Wackerfuß, S Klinkel Computational Mechanics 70 (6), 1145-1166, 2022 | 4 | 2022 |
A unified and memory efficient framework for simulating mechanical behavior of carbon nanotubes M Burger, C Bischof, C Schröppel, J Wackerfuß Procedia Computer Science 51, 413-422, 2015 | 4 | 2015 |
Methods to model and simulate super carbon nanotubes of higher order M Burger, C Bischof, C Schröppel, J Wackerfuß Concurrency and Computation: Practice and Experience 29 (7), e3872, 2017 | 3 | 2017 |
Coupling atomistic and continuum models with nodes having translational and rotational degrees of freedom F Niederhöfer, J Wackerfuß PAMM 15 (1), 465-466, 2015 | 3 | 2015 |
Exploiting structural properties during carbon nanotube simulation M Burger, C Bischof, C Schröppel, J Wackerfuß Computational Science and Its Applications--ICCSA 2015: 15th International …, 2015 | 3 | 2015 |
Isolating low‐frequency deformations for efficient multigrid methods: a geometrically exact 2D beam model C Schröppel, J Wackerfuß PAMM 14 (1), 561-562, 2014 | 3 | 2014 |
A direct numerical method to evaluate the geometric stability of arbitrary spatial structures J Wackerfuß International Journal of Solids and Structures 185, 29-45, 2020 | 2 | 2020 |
On the detection, visualization and characterization of spurious kinematic modes in arbitrary plane structures J Wackerfuß International Journal of Solids and Structures 164, 84-103, 2019 | 2 | 2019 |
Using finite element codes as a numerical platform to run molecular dynamics simulations J Wackerfuß, F Niederhöfer Computational Mechanics 63 (2), 271-300, 2019 | 2 | 2019 |