A continuum mechanics based four‐node shell element for general non‐linear analysis EN Dvorkin, KJ Bathe Engineering computations 1 (1), 77-88, 1984 | 1767 | 1984 |
A four‐node plate bending element based on Mindlin/Reissner plate theory and a mixed interpolation KJ Bathe, EN Dvorkin International Journal for Numerical Methods in Engineering 21 (2), 367-383, 1985 | 1414 | 1985 |
A formulation of general shell elements—the use of mixed interpolation of tensorial components KJ Bathe, EN Dvorkin International journal for numerical methods in engineering 22 (3), 697-722, 1986 | 1106 | 1986 |
Finite elements with displacement interpolated embedded localization lines insensitive to mesh size and distortions EN Dvorkin, AM Cuitino, G Gioia International journal for numerical methods in engineering 30 (3), 541-564, 1990 | 372 | 1990 |
On the automatic solution of nonlinear finite element equations KJ Bathe, EN Dvorkin Computers & Structures 17 (5-6), 871-879, 1983 | 365 | 1983 |
On a non‐linear formulation for curved Timoshenko beam elements considering large displacement/rotation increments EN Dvorkin, E Onte, J Oliver International Journal for Numerical Methods in Engineering 26 (7), 1597-1613, 1988 | 168 | 1988 |
A formulation of the MITC4 shell element for finite strain elasto-plastic analysis EN Dvorkin, D Pantuso, EA Repetto Computer methods in applied mechanics and engineering 125 (1-4), 17-40, 1995 | 144 | 1995 |
Our discrete-Kirchhoff and isoparametric shell elements for nonlinear analysis—an assessment KJ Bathe, E Dvorkin, LW Ho Computers & Structures 16 (1-4), 89-98, 1983 | 113 | 1983 |
Finite element analysis of steel rolling processes MA Cavaliere, MB Goldschmit, EN Dvorkin Computers & Structures 79 (22-25), 2075-2089, 2001 | 93 | 2001 |
Nonlinear continua EN Dvorkin, MB Goldschmit Springer Science & Business Media, 2006 | 69 | 2006 |
A quadrilateral 2‐D finite element based on mixed interpolation of tensorial components EN Dvorkin, SI Vassolo Engineering computations 6 (3), 217-224, 1989 | 66 | 1989 |
Modeling of the solidification process in a continuous casting installation for steel slabs M Gonzalez, MB Goldschmit, AP Assanelli, EN Dvorkin, EF Berdaguer Metallurgical and materials transactions B 34, 455-473, 2003 | 63 | 2003 |
Experimental/numerical analysis of the collapse behavior of steel pipes AP Assanelli, RG Toscano, DH Johnson, EN Dvorkin Engineering computations 17 (4), 459-486, 2000 | 58 | 2000 |
A Vlasov beam element EN Dvorkin, D Celentano, A Cuitino, G Gioia Computers & structures 33 (1), 187-196, 1989 | 57 | 1989 |
2D finite elements with displacement interpolated embedded localization lines: the analysis of fracture in frictional materials EN Dvorkin, AP Assanelli Computer methods in applied mechanics and engineering 90 (1-3), 829-844, 1991 | 56 | 1991 |
2D finite element parametric studies of the flat-rolling process EN Dvorkin, MB Goldschmit, MA Cavaliere, PM Amenta, O Marini, ... Journal of Materials Processing Technology 68 (1), 99-107, 1997 | 54 | 1997 |
Finite element models of OCTG threaded connections AP Assanelli, EN Dvorkin Computers & Structures 47 (4-5), 725-734, 1993 | 52 | 1993 |
Finite element models in the steel industry: Part II: Analyses of tubular products performance EN Dvorkin, RG Toscano Computers & Structures 81 (8-11), 575-594, 2003 | 51 | 2003 |
Finite element simulation of the steel plates hot rolling process MA Cavaliere, MB Goldschmit, EN Dvorkin International Journal for Numerical Methods in Engineering 52 (12), 1411-1430, 2001 | 50 | 2001 |
On the modelling of complex 3D bulk metal forming processes via the pseudo‐concentrations technique. Application to the simulation of the Mannesmann piercing process DA Berazategui, MA Cavaliere, L Montelatici, EN Dvorkin International journal for numerical methods in engineering 65 (7), 1113-1144, 2006 | 49 | 2006 |