- International Journal of Engineering and Applied Sciences
- Vol: 9 Issue: 2 Special Issue
- Finite Elements Based on Strong and Weak Formulations for Structural Mechanics: Stability, Accuracy ...
Finite Elements Based on Strong and Weak Formulations for Structural Mechanics: Stability, Accuracy and Reliability
Authors : Francesco Tornabene, Nicholas Fantuzzi, Michele Bacciocchi
Pages : 1-21
Doi:10.24107/ijeas.304376
View : 6 | Download : 3
Publication Date : 2017-04-19
Article Type : Research
Abstract :The authors are presenting a novel formulation based on the Differential Quadrature (DQ) method which is used to approximate derivatives and integrals. The resulting scheme has been termed strong and weak form finite elements (SFEM or WFEM), according to the numerical scheme employed in the computation. Such numerical methods are applied to solve some structural problems related to the mechanical behavior of plates and shells, made of isotropic or composite materials. The main differences between these two approaches rely on the initial formulation – which is strong or weak (variational) – and the implementation of the boundary conditions, that for the former include the continuity of stresses and displacements, whereas in the latter can consider the continuity of the displacements or both. The two methodologies consider also a mapping technique to transform an element of general shape described in Cartesian coordinates into the same element in the computational space. Such technique can be implemented by employing the classic Lagrangian-shaped elements with a fixed number of nodes along the element edges or blending functions which allow an "exact mapping” of the element. In particular, the authors are employing NURBS (Not-Uniform Rational B-Splines) for such nonlinear mapping in order to use the "exact” shape of CAD designs.Keywords : Structural analysis, Numerical methods, Strong formulation finite element method, Weak formulation finite element method, Differential and integral quadrature