Assessment of the enhanced assumed strain (EAS) and the assumed natural strain (ANS) techniques in the mechanical behavior of the SSH3D solid-shell element

Duchene, Laurent; Ben Bettaieb, Amine; Habraken, Anne

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Duchene, Laurent; Ben Bettaieb, Amine; Habraken, Anne

2011 • In Complas XI

Peer reviewed

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Keywords :

LIMARC

Disciplines :

Materials science & engineering

Author, co-author :

Duchene, Laurent ; Université de Liège - ULiège > Département Argenco : Secteur MS2F > Analyse multi-échelles des matériaux et struct. du gén. civ.

Ben Bettaieb, Amine ; Université de Liège - ULiège > Département Argenco : Secteur MS2F > Département Argenco : Secteur MS2F

Habraken, Anne ; Université de Liège - ULiège > Département ArGEnCo > Département ArGEnCo

Language :

English

Title :

Assessment of the enhanced assumed strain (EAS) and the assumed natural strain (ANS) techniques in the mechanical behavior of the SSH3D solid-shell element

Publication date :

2011

Event name :

XI International Conference on Computational Plasticity Fundamentals and Applications

Event place :

Barcelone, Spain

Event date :

du 7 au 9 septembre 2011

Audience :

International

Journal title :

Complas XI

Peer reviewed :

Peer reviewed

Available on ORBi :

since 29 March 2012

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Bibliography

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Alves de Sousa, R.J., Yoon, J.W., Cardoso, R.P.R., Fontes Valente, R.A., Gracio, J.J. On the use of a reduced enhanced solid-shell (RESS) element for sheet forming simulations. Int. J. Plast. (2007) 23: 490-515.
Andelfinger, U. and Ramm, E. EAS-elements for two-dimensional, three-dimensional, plate and shell structures and their equivalence to HR-elements. Int. J. Num. Meth. Engng. (1993) 36: 1311-1337.
Dvorkin, E.N. and Bathe K.-J. A continuum mechanics based four-node shell element for general nonlinear analysis. Engineering computations (1984) 1: 77-88.
Hauptmann, R., Schweizerhof, K. and Doll, S. Extension of the 'solid-shell' concept for application to large elastic and large elastoplastic deformations. Int. J. Num. Meth. Engng. (2000) 49: 1121-1141.
Nguyen, N.H. Development of solid-shell elements for large deformation simulation and springback prediction. Ph.D. Thesis (2009), University of Liège, Belgium. Available from http://bictel.ulg.ac.be/ETD-db/collection/ available/ULgetd-11012009-164626/
Vu-Quoc, L. and Tan, X.G. Optimal solid shells for non-linear analyses of multilayer composites. I. Statics. Comput. Meth. Appl. Mech. Eng. (2003) 192: 975-1016.
Klinkel, S., Gruttmann, F. and Wagner, W. A robust non-linear solid shell element based on a mixed variational formulation. Comput. Meth. Appl. Mech. Eng. (2006) 195: 179-201.
Schwarze, M. and Reese, S. A reduced integration solid-shell finite element based on the EAS and the ANS concept-Geometrically linear problems. Int. J. Num. Meth. Engng. (2009) 80: 1322-1355.
Cardoso, R.P.R., Yoon, J.W., Mahardika, M., Choudhry, S., de Sousa, R.J.A. and Fontes Valente, R.A. Enhanced assumed strain (EAS) and assumed natural strain (ANS) methods for one-point quadrature solid-shell elements. Int. J. Num. Meth. Engng. (2008) 75: 156-187.
Alves de Sousa, R.J., Natal Jorge, R.M., Fontes Valente, R.A., César Sá, J.M.A. A new volumetric and shear locking-free EAS element. Engineering Computations (2003) 20:896-925.