A local meshless analysis of dynamics problems / Uma análise local desordenada dos problemas dinâmicos
Autor: | Wilber Humberto Vélez Gómez, Artur Portela, Flávio Mendonça |
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Rok vydání: | 2021 |
Předmět: |
Marketing
Pharmacology Organizational Behavior and Human Resource Management Mechanical equilibrium Discretization Computer science Strategy and Management Numerical analysis Linear elasticity Pharmaceutical Science Finite element method law.invention Dynamic problem law Drug Discovery Applied mathematics Node (circuits) Reduction (mathematics) |
Zdroj: | Brazilian Journal of Development. 7:96793-96812 |
ISSN: | 2525-8761 |
DOI: | 10.34117/bjdv7n10-134 |
Popis: | This paper is concerned with new formulations of local meshfree numerical method, for the solution of dynamic problems in linear elasticity, Integrated Local Mesh Free (ILMF) method. The key attribute of local numerical methods is the use of a modeling paradigm based on a node-by-node calculation, to generate the rows of the global system of equations of the body discretization. In the local domain, assigned to each node of a discretization, the work theorem is kinematically formulated, leading thus to an equation of mechanical equilibrium of the local node, that is used by local meshfree method as the starting point of the formulation. The main feature of this paper is the use of a linearly integrated local form of the work theorem. The linear reduced integration plays a key role in the behavior of local numerical methods, since it implies a reduction of the nodal stiffness which, in turn, leads to an increase of the solution accuracy. As a consequence, the derived meshfree and finite element numerical methods become fast and accurate, which is a feature of paramount importance, as far as computational efficiency of numerical methods is concerned. The cantilever beam was analyzed with this technique, in order to assess the accuracy and efficiency of the new local numerical method for dynamic problems with regular and irregular nodal configuration. The results obtained in this work are in perfect agreement with Mesh-Free Local Petrov-Galerkin (MLPG) and the Finite Element Method (FEM) solutions. |
Databáze: | OpenAIRE |
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