On the formulation of the planar ANCF triangular finite elements
| Autor: | Tengfei Wang, Carmine Maria Pappalardo, Ahmed A. Shabana |
|---|---|
| Rok vydání: | 2017 |
| Předmět: |
0209 industrial biotechnology
Absolute nodal coordinate formulation Bezier triangular patch Flexible multibody system dynamics Isoparametric ANCF triangular finite elements Position and gradient continuity conditions Control and Systems Engineering Aerospace Engineering Ocean Engineering Mechanical Engineering Applied Mathematics Electrical and Electronic Engineering Coordinate system Geometry 02 engineering and technology 01 natural sciences Displacement (vector) law.invention 020901 industrial engineering & automation Transformation matrix law Position (vector) 0103 physical sciences Cartesian coordinate system 010301 acoustics Mathematics Tangent Finite element method Parametrization |
| Zdroj: | Nonlinear Dynamics. 89:1019-1045 |
| ISSN: | 1573-269X 0924-090X |
| DOI: | 10.1007/s11071-017-3498-x |
| Popis: | In this paper, new planar isoparametric triangular finite elements (FE) based on the absolute nodal coordinate formulation (ANCF) are developed. The proposed ANCF elements have six coordinates per node: two position coordinates that define the absolute position vector of the node and four gradient coordinates that define vectors tangent to coordinate lines (parameters) at the same node. To shed light on the importance of the element geometry and to facilitate the development of some of the new elements presented in this paper, two different parametric definitions of the gradient vectors are used. The first parametrization, called area parameterization, is based on coordinate lines along the sides of the element in the reference configuration, while the second parameterization, called Cartesian parameterization, employs coordinate lines defined along the axes of the structure (body) coordinate system. The fundamental differences between the ANCF parameterizations used in this investigation and the parametrizations used for conventional finite elements are highlighted. The Cartesian parameterization serves as a unique standard for the triangular FE assembly. To this end, a transformation matrix that defines the relationship between the area and the Cartesian parameterizations is introduced for each element in order to allow for the use of standard FE assembly procedure and define the structure (body) inertia and elastic forces. Using Bezier geometry and a linear mapping, cubic displacement fields of the new ANCF triangular elements are systematically developed. Specifically, two new ANCF triangular finite elements are developed in this investigation, namely four-node mixed-coordinate and three-node ANCF triangles. The performance of the proposed new ANCF elements is evaluated by comparison with the conventional linear and quadratic triangular elements as well as previously developed ANCF rectangular and triangular elements. The results obtained in this investigation show that in the case of small and large deformations as well as finite rotations, all the elements considered can produce correct results, which are in a good agreement if appropriate mesh sizes are used. |
| Databáze: | OpenAIRE |
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