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On the Avoidance of POISSON Thickness Locking in Surface-Related Shell Theories by an Extension of the EAS Method

Identyfikatory
Warianty tytułu
Konferencja
German-Greek-Polish Symphosium on Advances in Mechanics (4 ; 09.2001 ; Pułtusk, Poland)
Języki publikacji
EN
Abstrakty
EN
The enhanced assumed strain (EAS) method as introduced by Simo and Rifai (1990), Buchter and Ramm (1992), Buchter et al. (1994) represents a very efficient concept for the prevention and reduction of locking phenomena. The utilization of the EAS method to prevent POISSON thickness locking in the context of a 6-parameter shell formulation without rotational degrees of freedom and the middle surface as reference surface is a well known procedure in literature, Bischoff (1999), Klinkel (2000). In this contribution the EAS method is applied in a shell theory that uses an outer surface as the reference surface and is therefore called a surface-related shell theory. In contrast to the middle surface shell theory the EAS concept to prevent POISSON thickness locking in connection with surface-related formulations evokes a coupling of the membrane force and moment tensor, if the orthogonality condition is evaluated. Two additional concepts against locking phenomena are introduced: the assumed natural strain (ANS) concept, cp. Simo and Hughes (1986), and the discrete shear gap (DSG) concept, cp Bletzinger et al. (1998). The combination of the aforementioned concepts leads to an efficient finite volume shell element that is demonstrated in numerical examples.
Rocznik
Strony
101--114
Opis fizyczny
Bibliogr. 15 poz.
Twórcy
  • Technische Universitat Dresden
autor
  • Technische Universitat Dresden
  • Technische Universitat Dresden
Bibliografia
  • Başar, Y., Ding, Y., 1990, Finite-Rotation Shell Elements for Analysis of Finite-Rotation Shell Problems, Second World Congress on Computational Mechanics, 785-788.
  • Bischoff, M., Ramm, E., 1997, Shear Deformable Shell Elements for Large Strains and Rotations, International Journal for Numerical Methods in Engineering, 40, 1-23.
  • Bischoff, M.,1999, Theorie und Numerik einer dreidimensionalen Schalenformulierung, Dissertation, Universitat Stuttgart, Institut für Baustatik.
  • Bletzinger, K.U., Bischoff, U., Ramm, E., 1998, A Unified Approach for Shear-Locking¬Free Triangular and Rectangular Shell Finite Elements, Computational Mechanics, New Trends and Applications, CD-Rom Proceedings of the Forth Congress on Computational Mechanics, 1-22.
  • Büchter, N., 1992, Zusammenführung von Degenerationskonzept und Schalentheorie bei endlichen Rotationen, Dissertation, Universitat Stuttgart, Institut für Baustatik.
  • Büchter, N., Ramm, E., 1992, 3D-Extension of Nonlinear Shell Equations Based on the Enhanced Assumed Strain Concept, First European Conference on Numerical Methods in Engineering, 1-8.
  • Büchter, N., Ramm, E., Roehl, D., 1994, Three-Dimensional Extension of Non-Linear Shell Formulation Based on the Enhanced Assumed Strain Concept, International Journal for Numerical Methods in Engineering, 37, 2551-2568.
  • Eringen, A. C., 1989, Mechanics of Continua, Robert E. Krieger Publishing Company, Malabar, Florida.
  • Klinkel, S., 2000, Theorie und Numerik eines Volumen-Schalen-Elementes bei finiten elastischen und plastischen Verzerrungen, Dissertation, Universitat Karlsruhe, Institut für Baustatik.
  • Naghdi, P.M., 1963, Foundations of Elastic Shell Theory, Progress in Solid Mechanics, 4, 1-90.
  • Rothert, H., Zastrau, B.W.,1981, Herleitung und Anwendung einer kontaktproblemorientierten Schalentheorie, Konstruktiver Ingenieurbau-Berichte (KIB), 38/39, 76-84.
  • Simo, J.C., Hughes, T.J.R., 1986, On the variational Foundations of Assumed Strain Methods, Journal of Applied Mechanics, 63, 224-225.
  • Simo, J.C., Rifai, M.S., 1990, A class of mixed assumed strain methods and the method of incompatible modes, International Journal for Numerical Methods in Engineering, 29,1595-1638.
  • Zastrau, B.W.,1983, Ein Beitrag zur Modifikation der klassischen Schalentheorie für die unmittelbare Berechnung von Kontaktproblemen, Zeitschrift fair angewandte Mathematik und Mechanik, 63, 224-225.
  • Zastrau, B.W., Schlebusch, R., Matheas, J., 2000, Surface-Related Shell Theories for the Treatment of Composites and Contact Problems, CD-Rom Proceedings of the Fourth International Colloquium on Computation of Shell & Spatial Structures, 1-18.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BWA2-0006-0128
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