Finite elements for 2D problems of pressurized membranes

• Published in: Computers & structures Vol. 81; no. 26; pp. 2479 - 2490
• Main Authors: Bouzidi, Rabah, Ravaut, Yannick, Wielgosz, Christian
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.10.2003; Elsevier
• Subjects: Energy minimization; Engineering Sciences; Finite element; Finite strains; Follower forces; Large deflections; Pressurized membranes; Pressurized membranes; Finite strains; Large deflections; Energy minimization; Follower forces; Finite element
• ISSN: 0045-7949; 1879-2243
• DOI: 10.1016/S0045-7949(03)00308-0

This paper presents theoretical and numerical developments of finite elements for axisymmetric and cylindrical bending problems of pressurized membranes. The external loading is mainly a normal pressure to the membrane and the developments are made under the assumptions of follower forces, large displacements and finite strains. The numerical computing is carried out in a different way that those used by the conventional finite element approach which consists in solving the non-linear system of equilibrium equations in which appears the stiffness matrix. The total potential energy is here directly minimized, and the numerical solution is obtained by using optimization algorithms. When the derivatives of the total energy with respect to the nodal displacements are calculated accurately, this approach presents a very good numerical stability in spite of the nil bending rigidity of the membrane. Our numerical models show a very good accuracy by comparisons to analytical solutions and experimental results.