Technische Mechanik 3: Kinetik D Gross, W Hauger, J Schröder, WA Wall Springer-Verlag, 2012 | 1086* | 2012 |
Fixed-point fluid–structure interaction solvers with dynamic relaxation U Küttler, WA Wall Computational mechanics 43 (1), 61-72, 2008 | 944 | 2008 |
Isogeometric structural shape optimization WA Wall, MA Frenzel, C Cyron Computer methods in applied mechanics and engineering 197 (33-40), 2976-2988, 2008 | 701 | 2008 |
Tortuosity determination of battery electrodes and separators by impedance spectroscopy J Landesfeind, J Hattendorff, A Ehrl, WA Wall, HA Gasteiger Journal of The Electrochemical Society 163 (7), A1373, 2016 | 634 | 2016 |
Artificial added mass instabilities in sequential staggered coupling of nonlinear structures and incompressible viscous flows C Förster, WA Wall, E Ramm Computer methods in applied mechanics and engineering 196 (7), 1278-1293, 2007 | 507 | 2007 |
Models and finite elements for thin‐walled structures M Bischoff, KU Bletzinger, WA Wall, E Ramm Encyclopedia of computational mechanics, 2004 | 398 | 2004 |
An extended finite element method/Lagrange multiplier based approach for fluid–structure interaction A Gerstenberger, WA Wall Computer Methods in Applied Mechanics and Engineering 197 (19-20), 1699-1714, 2008 | 378 | 2008 |
Critical influences of particle size and adhesion on the powder layer uniformity in metal additive manufacturing C Meier, R Weissbach, J Weinberg, WA Wall, AJ Hart Journal of Materials Processing Technology 266, 484-501, 2019 | 309 | 2019 |
Truly monolithic algebraic multigrid for fluid–structure interaction MW Gee, U Küttler, WA Wall International Journal for Numerical Methods in Engineering 85 (8), 987-1016, 2011 | 294 | 2011 |
Fluid-struktur-interaktion mit stabilisierten finiten elementen WA Wall | 286 | 1999 |
A new crack tip element for the phantom‐node method with arbitrary cohesive cracks T Rabczuk, G Zi, A Gerstenberger, WA Wall International Journal for Numerical Methods in Engineering 75 (5), 577-599, 2008 | 261 | 2008 |
A comparison of diameter, wall stress, and rupture potential index for abdominal aortic aneurysm rupture risk prediction A Maier, MW Gee, C Reeps, J Pongratz, HH Eckstein, WA Wall Annals of biomedical engineering 38, 3124-3134, 2010 | 251 | 2010 |
Engineering mechanics D Gross, W Hauger, J Schröder, WA Wall, J Bonet Springer, 2013 | 246 | 2013 |
Partitioned analysis schemes for the transient interaction of incompressible flows and nonlinear flexible structures DP Mok, WA Wall Trends in computational structural mechanics 1, 2001 | 226 | 2001 |
Fluid-structure interaction based upon a stabilized (ALE) finite element method WA Wall Computational Mechanics (World Congress), New Trends and Applications, 1998, 1998 | 221 | 1998 |
A computational strategy for prestressing patient‐specific biomechanical problems under finite deformation MW Gee, C Förster, WA Wall International Journal for Numerical Methods in Biomedical Engineering 26 (1 …, 2010 | 220 | 2010 |
A finite deformation mortar contact formulation using a primal–dual active set strategy A Popp, MW Gee, WA Wall International Journal for Numerical Methods in Engineering 79 (11), 1354-1391, 2009 | 217 | 2009 |
A dual mortar approach for 3D finite deformation contact with consistent linearization A Popp, M Gitterle, MW Gee, WA Wall International Journal for Numerical Methods in Engineering 83 (11), 1428-1465, 2010 | 213 | 2010 |
Extended meshfree methods without branch enrichment for cohesive cracks G Zi, T Rabczuk, W Wall Computational Mechanics 40, 367-382, 2007 | 212 | 2007 |
Geometrically exact finite element formulations for slender beams: Kirchhoff–Love theory versus Simo–Reissner theory C Meier, A Popp, WA Wall Archives of Computational Methods in Engineering 26 (1), 163-243, 2019 | 209 | 2019 |